US20130269297A1 - Transformation System for Optimization of Nutritional Substances at Consumption - Google Patents
Transformation System for Optimization of Nutritional Substances at Consumption Download PDFInfo
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- US20130269297A1 US20130269297A1 US13/684,113 US201213684113A US2013269297A1 US 20130269297 A1 US20130269297 A1 US 20130269297A1 US 201213684113 A US201213684113 A US 201213684113A US 2013269297 A1 US2013269297 A1 US 2013269297A1
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- nutritional
- nutritional substance
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65B—MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
- B65B17/00—Other machines, apparatus, or methods for packaging articles or materials
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- A—HUMAN NECESSITIES
- A23—FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
- A23P—SHAPING OR WORKING OF FOODSTUFFS, NOT FULLY COVERED BY A SINGLE OTHER SUBCLASS
- A23P10/00—Shaping or working of foodstuffs characterised by the products
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- A—HUMAN NECESSITIES
- A23—FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
- A23L—FOODS, FOODSTUFFS, OR NON-ALCOHOLIC BEVERAGES, NOT COVERED BY SUBCLASSES A21D OR A23B-A23J; THEIR PREPARATION OR TREATMENT, e.g. COOKING, MODIFICATION OF NUTRITIVE QUALITIES, PHYSICAL TREATMENT; PRESERVATION OF FOODS OR FOODSTUFFS, IN GENERAL
- A23L5/00—Preparation or treatment of foods or foodstuffs, in general; Food or foodstuffs obtained thereby; Materials therefor
- A23L5/10—General methods of cooking foods, e.g. by roasting or frying
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09B—EDUCATIONAL OR DEMONSTRATION APPLIANCES; APPLIANCES FOR TEACHING, OR COMMUNICATING WITH, THE BLIND, DEAF OR MUTE; MODELS; PLANETARIA; GLOBES; MAPS; DIAGRAMS
- G09B19/00—Teaching not covered by other main groups of this subclass
- G09B19/0092—Nutrition
Definitions
- the present inventions relate to transformation of nutritional substances in conjunction with the collection, transmission, and use of information regarding source and preservation and transformation information of the nutritional substance.
- transformation of nutritional substances according to the present invention results in a nutritional substance product wherein various component nutritional substances will be quickly and easily conditioned for consumption to achieve optimal nutritional, organoleptic or aesthetic characteristics targeted by the transformer of the nutritional substance.
- Nutritional substances are traditionally grown (plants), raised (animals) or synthesized (synthetic compounds). Additionally, nutritional substances can be found in a wild, non-cultivated form, which can be caught or collected. While the collectors and creators of nutritional substances generally obtain and/or generate information about the source, history, caloric content and/or nutritional content of their products, they generally do not pass such information along to the users of their products. One reason is the nutritional substance industries have tended to act like “silo” industries. Each group in the food and beverage industry: growers, packagers, processors, distributors, retailers, and preparers work separately, and either shares no information, or very little information, between themselves.
- Caloric content refers to the energy in nutritional substances, commonly measured in calories.
- the caloric content could be represented as sugars and/or carbohydrates in the nutritional substances.
- the nutritional content, also referred to herein as nutritional value, of foods and beverages, as used herein refers to the non-caloric content of these nutritional substances which are beneficial to the organisms which consume these nutritional substances.
- the nutritional content of a nutritional substance could include vitamins, minerals, proteins, and other non-caloric components which are necessary, or at least beneficial, to the organism consuming the nutritional substances.
- those who sell nutritional substances to consumers could communicate perceived qualitative values of the nutritional substance in their efforts to market and position their nutritional substance products.
- a determinant of price of the nutritional substance could be particular nutritional, organoleptic, or aesthetic values, and if changes to those values are perceived as desirable. For example, if a desirable value has been maintained, improved, or minimally degraded, it could be marketed as a premium product.
- a system allowing creators, preservers, transformers, and conditioners of nutritional substances to update labeling content to reflect the most current information about the nutritional substance would provide consumers with the information they need to make informed decisions regarding the nutritional substances they purchase and consume.
- Such information updates could include nutritional, organoleptic, or aesthetic values of the nutritional substance, and may further include information regarding the source, creation and other origin information for the nutritional substance.
- the grower of sweet corn generally only provides basic information as the variety and grade of its corn to the packager, who preserves and ships the corn to a producer for use in a ready-to-eat dinner.
- the packager may only tell the producer that the corn has been frozen as loose kernels of sweet corn.
- the producer may only provide the consumer with rudimentary instructions how to cook or reheat the ready-to-eat dinner in a microwave oven, toaster oven or conventional oven, and only tell the consumer that the dinner contains whole kernel corn among the various items in the dinner.
- the consumer of the dinner will likely keep her opinions on the quality of the dinner to herself, unless it was an especially bad experience, where she might contact the producer's customer support program to complain.
- the producer of the ready-to-eat dinner does not know the nutritional content and organoleptic state and aesthetic condition of the product after it has been reheated or cooked by the consumer, cannot predict changes to these properties, and cannot inform a consumer of this information to enable the consumer to better meet their needs.
- the consumer may want to know what proportion of desired organoleptic properties or values, desired nutritional content or values, or desired aesthetic properties or values of the corn in the ready-to-eat dinner remain after cooking or reheating, and the change in the desired nutritional content or values, the desired organoleptic properties or values, or the desired aesthetic properties or values (usually a degradation, but could be a maintenance or even improvement).
- the caloric and nutritional content information for a prepared food that is provided to the consumer is often minimal.
- the consumer when sugar is listed in the ingredient list, the consumer generally does receive any information about the source of the sugar, which can come from a variety of plants, such as sugarcane, beets, or corn, which will affect its nutritional content.
- some nutritional information that is provided to consumers is so detailed, the consumer can do little with it.
- Vitamins A 355 IU 7%, E 0.8 mg 4%, K 0.5 mcg, 1%, Thiamin 0.6 mg 43%, Riboflavin 0.3 mg 20%, Niacin 6.0 mg 30%, B6 1.0 mg 52%, Foliate 31.5 mcg 8%, Pantothenic 7%; Minerals Calcium 11.6 1%, Iron 4.5 mg 25%, Phosphorus 349 mg 35%, Potassium 476 mg 14%, Sodium 58.1 mg 2%, Zinc 3.7 mg 24%, Copper 0.5 mg 26%, Manganese 0.8 mg 40%, Selenium 25.7 mcg 37%; Carbohydrate 123 g, Dietary fiber 12.1 g, Saturated fat 7.9 g, Monosaturated Fat 2.1 g, Polysaturated Fat 3.6 g, Omega 3 fatty acids 108 g, Omega 6 fatty acids 3481, Ash 2.0 g and Water 17.2 g.
- each silo in the food and beverage industry already creates and tracks some information, including caloric and nutritional information, about their product internally.
- the farmer who grew the corn knows the variety of the seed, condition of the soil, the source of the water, the fertilizers and pesticides used, and can measure the caloric and nutritional content at creation.
- the packager of the corn knows when it was picked, how it was transported to the packaging plant, how the corn was preserved and packaged before being sent to the ready-to-eat dinner producer, when it was delivered to the producer, and what degradation to caloric and nutritional content has occurred.
- the producer knows the source of each element of the ready-to-eat dinner, how it was processed, including the recipe followed, and how it was preserved and packaged for the consumer.
- the quality of the nutritional substances could be preserved and improved. Consumers could be better informed about nutritional substances they select and consume, including the state, and changes in the state, of the nutritional substance throughout its lifecycle from creation to consumption. The efficiency and cost effectiveness of nutritional substances could also be improved. Feedback within the entire chain from creator to consumer could provide a closed-loop system that could improve quality (taste, appearance, and caloric and nutritional content), efficiency, value and profit. For example, in the milk supply chain, at least 10% of the milk produced is wasted due to safety margins included in product expiration dates. The use of more accurate tracking information, measured quality (including nutritional content) information, and historical environmental information could substantially reduce such waste. Collecting, preserving, measuring and/or tracking information about a nutritional substance in the nutritional substance supply system, would allow needed accountability. There would be nothing to hide.
- Consumers of nutritional substances are sometimes given options on how to prepare nutritional substances they have obtained from the store, such as different cooking devices: microwave ovens, conventional ovens, etc., and/or limited taste preferences such as crunchy or soft.
- different cooking devices such as different cooking devices: microwave ovens, conventional ovens, etc.
- limited taste preferences such as crunchy or soft.
- the consumer desires to prepare a specific recipe, they must obtain all the proper ingredients themselves, as well as prepare the recipe themselves including which cooking appliances need to be used.
- the consumer has no way of knowing the history or current condition of the nutritional substances they obtain for preparing a desired recipe.
- the consumer has no way of knowing how to change or modify the conditioning process to achieve desired nutritional, organoleptic, and aesthetic properties after preparation.
- nutritional substances are composed of biological, organic, and/or chemical compounds, they are generally subject to degradation. This degradation generally reduces the nutritional, organoleptic, and/or aesthetic values of nutritional substances. While not always true, nutritional substances are best consumed at their point of creation. However, being able to consume nutritional substances at the farm, at the slaughterhouse, at the fishery, or at the food processing plant is at least inconvenient, if not impossible.
- the food and beverage industry attempts to minimize the loss of nutritional value (often through the use of additives or preservatives), and/or attempts to hide this loss of nutritional value from consumers.
- a transformer of nutritional substance maintains creation and/or preservation information for components of a transformed nutritional substance.
- a transformer of nutritional substance maintains creation and/or preservation information for components of a transformed nutritional substance and additionally provides information regarding the transformation.
- a transformer of nutritional substance maintains creation and/or packaging information for components of a transformed nutritional substance.
- a transformer of nutritional substance maintains creation and/or packaging information for components of a transformed nutritional substance and additionally provides information regarding the transformation.
- a nutritional substance product transformed according to the present invention enable the retrieval and utilization of preparation instructions unique to that individual nutritional substance product at the time of preparation to achieve optimized nutritional, organoleptic or aesthetic values which were targeted by the transformer at transformation.
- the targeted post conditioning nutritional, organoleptic, or aesthetic value of the nutritional substance is responsive to: an optimal nutritional, organoleptic, or aesthetic state of the nutritional substance upon transformation to achieve post preservation/post conditioning targeted nutritional, organoleptic, or aesthetic values; actual changes in the nutritional, organoleptic, or aesthetic state following its post transformation preservation; and estimated changes in the nutritional, organoleptic, or aesthetic state following its conditioning, wherein conditioning is dynamically modified responsive to: said optimal nutritional, organoleptic, or aesthetic state of the nutritional substance upon transformation; and to actual changes in the nutritional, organoleptic, or aesthetic state following its post transformation preservation, such that targeted nutritional, organoleptic, or aesthetic values are achieved.
- the transformer of nutritional substances obtains and transmits source and/or preservation information to be utilized by users and/or consumers of the transformed nutritional substance.
- the transformer of nutritional substances obtains and transmits source and/or preservation information and information regarding the transformation to be utilized by users and/or consumers of the transformed nutritional substance.
- the transformer of nutritional substances obtains and transmits source and/or packaging information to be utilized by users and/or consumers of the transformed nutritional substance.
- the transformer of nutritional substances obtains and transmits source and/or packaging information and information regarding the transformation to be utilized by users and/or consumers of the transformed nutritional substance.
- source and/or packaging and/or preservation information is used by the transformer to adaptively transform the nutritional substance, that is, to modify or adapt the process for transformation of the nutritional substance so as to preserve and/or minimize degradation of and/or improve nutritional, organoleptic, or aesthetic value and/or quality of the transformed nutritional substance.
- source and/or packaging and/or preservation information for multiple components of the nutritional substance being transformed are used to adaptively transform the nutritional substance, that is, to modify or adapt the process for transformation of the nutritional substance so as to preserve and/or minimize degradation of and/or improve nutritional, organoleptic, or aesthetic value and/or quality of the transformed nutritional substance or of specific components of the transformed nutritional substance.
- source and/or packaging and/or preservation information for multiple components of the nutritional substance being transformed are used to adaptively transform the nutritional substance so as to optimize (such as to preserve and/or minimize degradation of and/or improve) nutritional, organoleptic, or aesthetic value and/or quality of the transformed nutritional substance, or of specific components of the transformed nutritional substance subsequent to conditioning by or for a consumer, wherein said value or quality is targeted by the transformer at transformation.
- source and transformation and post transformation packaging or preservation information for multiple components of the transformed nutritional substance are used to adaptively condition the transformed nutritional substance so as to achieve a target nutritional, organoleptic, or aesthetic value or quality of the conditioned nutritional substance or of specific components of the conditioned nutritional substance subsequent to conditioning by or for a consumer, wherein said value or quality is targeted by the transformer at transformation.
- information regarding a change of nutritional, organoleptic, and/or aesthetic value of nutritional substances is: measured or collected or calculated or created or estimated or indicated or determined in any suitable manner; stored and/or tracked and/or transmitted and/or processed prior to transformation and/or following transformation, such that the degradation of specific nutritional, organoleptic, and/or aesthetic values can be minimized and specific residual nutritional, organoleptic, and/or aesthetic value can be optimized.
- a change of nutritional, organoleptic, and/or aesthetic value may not occur, in which case ⁇ N would be zero.
- the change of nutritional, organoleptic, and/or aesthetic value may be a degradation, in which case ⁇ N would be negative.
- the change of nutritional, organoleptic, and/or aesthetic value may be an improvement, in which case ⁇ N would be positive.
- An embodiment of the present invention provides a system for the creation, collection, storage, transmission, and/or processing of information regarding nutritional substances so as to improve, maintain, or minimize degradation of nutritional, organoleptic, and/or aesthetic value of nutritional substances. Additionally, the present invention provides such information for use by the creators, preservers, transformers, conditioners, and consumers of nutritional substances.
- the nutritional information creation, preservation, and transmission system of the present invention should allow the nutritional substance supply system to improve its ability to minimize degradation of nutritional, organoleptic and/or aesthetic value of the nutritional substance, and/or inform the consumer about such degradation.
- the ultimate goal of the nutritional substance supply system is to minimize degradation of nutritional, organoleptic and/or aesthetic values, or as it relates to ⁇ N, minimize the negative magnitude of ⁇ N.
- an interim goal should be providing consumers with significant information regarding any change, particularly degradation, of nutritional, organoleptic and/or aesthetic values of nutritional substances consumers select and consume, the ⁇ N, such that desired information regarding specific residual nutritional, organoleptic, and/or aesthetic values can be ascertained using the ⁇ N.
- Entities within the nutritional substance supply system who provide such ⁇ N information regarding nutritional substances, particularly regarding degradation, will be able to differentiate their products from those who obscure and/or hide such information. Additionally, such entities should be able to charge a premium for products which either maintain their nutritional, organoleptic, and/or aesthetic value, or supply more complete information about changes in their nutritional, organoleptic, and/or aesthetic value, the ⁇ N.
- information related to or determined from source, packaging and transformation information of a nutritional substance or component nutritional substances thereof is transmitted to the consumer prior to and/or following the conditioning of the nutritional substance.
- information related to or determined from source, packaging, transformation, and post transformation preservation information of a nutritional substance or component nutritional substances thereof is used in the conditioning of the nutritional substance to optimize post conditioning nutritional, organoleptic, or aesthetic values targeted by the transformer of the nutritional substance during transformation.
- the targeted nutritional, organoleptic, or aesthetic values may improve a perceived quality of the conditioned nutritional substance or minimize degradation, preserve, or improve desirable nutritional, organoleptic, or aesthetic characteristics of the nutritional substance.
- information regarding changes in nutritional, organoleptic, or aesthetic properties of a nutritional substance and/or component nutritional substances thereof, resulting from a proposed conditioning of a nutritional substance is transmitted to the consumer before and/or following the conditioning of the nutritional substance.
- one or more conditioning apparatuses use information related to, or determined from, source, packaging and/or transformation information of a nutritional substance and/or component nutritional substances thereof, to modify the conditioning of the nutritional substance in order to achieve target nutritional, organoleptic, or aesthetic values determined or targeted by the transformer during transformation, wherein the modified conditioning is responsive to the a nutritional, organoleptic, or aesthetic state of the nutritional substance upon transformation and changes in the nutritional, organoleptic, or aesthetic state following its post transformation preservation.
- information about the consumer's needs or preferences are used by the conditioning apparatus in the preparation of the nutritional substance to determine the target nutritional, organoleptic, or aesthetic values.
- external recipe information is used by the conditioning apparatus to modify the conditioning of the nutritional substance.
- the external recipe information could be provided by the transformer of the nutritional substance, which could be the case in which the transformer has chosen to optimize particular nutritional, organoleptic, or aesthetic values of their own choosing.
- a transformer with knowledge of source, transformation, and subsequent ⁇ N information regarding a nutritional substance they have transformed and packaged will be able to recommend conditioning parameters which take into account actual preservation ⁇ N and conditioning ⁇ N to optimize the selected nutritional, organoleptic, or aesthetic value following preservation and conditioning.
- information regarding a change of nutritional, organoleptic, and/or aesthetic value of a nutritional substance and/or component nutritional substances thereof, collectively and individually referred to herein as ⁇ N is: measured or collected or calculated or created or estimated or indicated or determined in any suitable manner; stored and/or tracked and/or transmitted and/or processed prior to conditioning and following conditioning, such that a target residual nutritional, organoleptic, or aesthetic values can be attained, wherein said target value is selected by the transformer of the nutritional substance.
- a target post conditioning nutritional, organoleptic, or aesthetic value of the nutritional substance selected by the transformer of the nutritional substance, accounts for: the nutritional, organoleptic, or aesthetic state of the nutritional substance upon transformation; changes in the nutritional, organoleptic, or aesthetic state following its post transformation preservation; and changes in the nutritional, organoleptic, or aesthetic state following its conditioning.
- An embodiment of the present invention provides a system for the creation, collection, storage, transmission, and/or processing of information regarding nutritional substances so as to improve, maintain, or minimize degradation of nutritional, organoleptic, and/or aesthetic value of nutritional substances. Additionally, the present invention provides such information for use by the creators, preservers, transformers, conditioners, and consumers of nutritional substances.
- the nutritional information creation, preservation, and transmission system of the present invention should allow the nutritional substance supply system to improve its ability to minimize degradation of nutritional, organoleptic and/or aesthetic value of the nutritional substance, and/or inform the consumer, creator, packager, transformer, or conditioner about such degradation, or ⁇ N.
- an interim goal should be providing consumers with significant information regarding any change, particularly degradation, of nutritional, organoleptic and/or aesthetic values of nutritional, and/or component nutritional substances thereof, consumers select and consume, the ⁇ N, such that desired information regarding specific residual nutritional, organoleptic, and/or aesthetic values can be ascertained using the ⁇ N. Entities within the nutritional substance supply system who provide such ⁇ N information regarding nutritional substances, particularly regarding degradation, will be able to differentiate their products from those who obscure and/or hide such information.
- entities should be able to charge a premium for products which either maintain their nutritional, organoleptic, and/or aesthetic value, or supply more complete information about changes in their nutritional, organoleptic, and/or aesthetic value, the ⁇ N.
- entities that supply conditioning equipment and other devices enabling consumer access and utilization of ⁇ N information will be able to differentiate their products from those that do not enable the consumer to access and utilize ⁇ N information.
- Such conditioning equipment will allow consumers to minimize degradation of, preserve, or improve the nutritional, organoleptic, and/or aesthetic value of the nutritional substances they consume.
- Such conditioners will further enable the consumer to optimize the nutritional, organoleptic, and/or aesthetic value of the nutritional substances they condition and consume according to their individual needs and desires, or according to target values established by the provider, such as the transformer, of the nutritional substance.
- target values are established by the provider of the nutritional substance
- a target post conditioning nutritional, organoleptic, or aesthetic value of the nutritional substance can be achieved with a high degree of precision and consistency, as the entire process of achieving said post conditioning values has accounted for: the optimal nutritional, organoleptic, or aesthetic state of the nutritional substance upon transformation to achieve post preservation/post conditioning target nutritional, organoleptic, or aesthetic values; actual changes in the nutritional, organoleptic, or aesthetic state following its post transformation preservation; and estimated changes in the nutritional, organoleptic, or aesthetic state following its conditioning.
- a transformer obtains a nutritional substance or the components thereof and determines source and ⁇ N information for the nutritional substance or components. Using the source and ⁇ N information, the transformer dynamically transforms the nutritional substance or components such that a nutritional, organoleptic, or aesthetic value, selected by the transformer, is optimized for future preservation and conditioning. The transformer then packages the nutritional substance and provides it with a dynamic information identifier.
- the dynamic information identifier is associated with source and ⁇ N information for the nutritional substance, or its components, related to transformation, post transformation preservation, and conditioning parameters to be proposed at the time of conditioning, and allows a consumer of the transformed nutritional substance to retrieve the proposed conditioning parameters to optimize said selected nutritional, organoleptic, or aesthetic value of the nutritional substance or component after preservation and conditioning.
- the consumer of the nutritional substance transformed in this fashion uses the dynamic information identifier to retrieve source and ⁇ N information as well as the proposed conditioning parameters.
- the consumer, or an entity preparing the nutritional substance for the consumer can then condition the nutritional substance or components, according to the proposed conditioning parameters so as to optimize said selected nutritional, organoleptic, or aesthetic value.
- observed or measured ⁇ N information can also be provided by consumers, so that it can be received and reflected through reporting or modification of a nutritional substance database, consumer reports regarding observed or measured changes in nutritional, organoleptic, and/or aesthetic values of nutritional substances they have purchased, are going to prepare, or are going to consume.
- FIG. 1 shows a schematic functional block diagram of a nutritional substance supply relating to the present invention
- FIG. 2 shows a graph representing a value of a nutritional substance which changes according to a change of condition for the nutritional substance
- FIG. 3 shows a schematic functional block diagram of the transformation module 400 according to the present invention
- FIG. 4 shows a schematic functional block diagram of the transformation module 400 according to the present invention.
- FIG. 5 shows a schematic functional block diagram of the transformation module 400 according to the present invention.
- FIG. 6 shows a schematic functional block diagram of the conditioning module 500 according to an alternate embodiment of the present invention.
- FIG. 7 shows a schematic functional block diagram of the conditioning module 500 according to an alternate embodiment of the present invention.
- the disparate processing devices are linked through a communications network, such as a Local Area Network (LAN), Wide Area Network (WAN), or the Internet.
- LAN Local Area Network
- WAN Wide Area Network
- program modules may be located in both local and remote memory storage devices.
- aspects of the invention may be stored or distributed on tangible computer-readable media, including magnetically or optically readable computer discs, hard-wired or preprogrammed chips (e.g., EEPROM semiconductor chips), nanotechnology memory, biological memory, or other data storage media.
- computer implemented instructions, data structures, screen displays, and other data related to the invention may be distributed over the Internet or over other networks (including wireless networks), on a propagated signal on a propagation medium (e.g., an electromagnetic wave(s), a sound wave, etc.) over a period of time.
- the data may be provided on any analog or digital network (packet switched, circuit switched, or other scheme).
- the interconnection between modules is the internet, allowing the modules (with, for example, WiFi capability) to access web content offered through various web servers.
- the network may be any type of cellular, IP-based or converged telecommunications network, including but not limited to Global System for Mobile Communications (GSM), Time Division Multiple Access (TDMA), Code Division Multiple Access (CDMA), Orthogonal Frequency Division Multiple Access (OFDM), General Packet Radio Service (GPRS), Enhanced Data GSM Environment (EDGE), Advanced Mobile Phone System (AMPS), Worldwide Interoperability for Microwave Access (WiMAX), Universal Mobile Telecommunications System (UMTS), Evolution-Data Optimized (EVDO), Long Term Evolution (LTE), Ultra Mobile Broadband (UMB), Voice over Internet Protocol (VoIP), Unlicensed Mobile Access (UMA), etc.
- GSM Global System for Mobile Communications
- TDMA Time Division Multiple Access
- CDMA Code Division Multiple Access
- OFDM Orthogonal Frequency Division Multiple Access
- GPRS General Packet Radio Service
- modules in the systems can be understood to be integrated in some instances and in particular embodiments, only particular modules may be interconnected.
- FIG. 1 shows the components of a nutritional substance industry 10 .
- a nutritional substance industry 10 could be the food and beverage ecosystem for human consumption, but could also be the feed industry for animal consumption, such as the pet food industry.
- a goal of the present invention for nutritional substance industry 10 is to create, preserve, transform and trace the change in nutritional, organoleptic and/or aesthetic values of nutritional substances, collectively and individually also referred to herein as ⁇ N, through their creation, preservation, transformation, conditioning and consumption. While the nutritional substance industry 10 can be composed of many companies or businesses, it can also be integrated into combinations of business serving many roles, or can be one business or even individual.
- ⁇ N is a measure of the change in a value of a nutritional substance
- knowledge of a prior value (or state) of a nutritional substance and the ⁇ N value will provide knowledge of the changed value (or state) of a nutritional substance, and can further provide the ability to estimate a change in value (or state).
- Module 200 is the creation module. This can be a system, organization, or individual which creates and/or originates nutritional substances. Examples of this module include a farm which grows produce; a ranch which raises beef; an aquaculture farm for growing shrimp; a factory that synthesizes nutritional compounds; a collector of wild truffles; or a deep sea crab trawler.
- Preservation module 300 is a preservation system for preserving and protecting the nutritional substances created by creation module 200 . Once the nutritional substance has been created, generally, it will need to be packaged in some manner for its transition to other modules in the nutritional substances industry 10 . While preservation module 300 is shown in a particular position in the nutritional substance industry 10 , following the creation module 200 , it should be understood that the preservation module 300 actually can be placed anywhere nutritional substances need to be preserved during their transition from creation to consumption.
- Transformation module 400 is a nutritional substance processing system, such as a manufacturer who processes raw materials such as grains into breakfast cereals. Transformation module 400 could also be a ready-to-eat dinner manufacturer who receives the components, or ingredients, also referred to herein as component nutritional substances, for a ready-to-eat dinner from preservation module 300 and prepares them into a frozen dinner. While transformation module 400 is depicted as one module, it will be understood that nutritional substances may be transformed by a number of transformation modules 400 on their path to consumption.
- Conditioning module 500 is a consumer preparation system for preparing the nutritional substance immediately before consumption by the consumer.
- Conditioning module 500 can be a microwave oven, a blender, a toaster, a convection oven, a cook, etc. It can also be systems used by commercial establishments to prepare nutritional substance for consumers such as a restaurant, an espresso maker, pizza oven, and other devices located at businesses which provide nutritional substances to consumers. Such nutritional substances could be for consumption at the business or for the consumer to take out from the business.
- Conditioning module 500 can also be a combination of any of these devices used to prepare nutritional substances for consumption by consumers.
- Consumer module 600 collects information from the living entity which consumes the nutritional substance which has passed through the various modules from creation to consumption.
- the consumer can be a human being, but could also be an animal, such as pets, zoo animals and livestock, which are they themselves nutritional substances for other consumption chains. Consumers could also be plant life which consumes nutritional substances to grow.
- Information module 100 receives and transmits information regarding a nutritional substance between each of the modules in the nutritional substance industry 10 including, the creation module 200 , the preservation module 300 , the transformation module 400 , the conditioning module 500 , and the consumer module 600 .
- the nutritional substance information module 100 can be an interconnecting information transmission system which allows the transmission of information between various modules.
- Information module 100 contains a database, also referred to herein as a dynamic nutritional value database, where the information regarding the nutritional substance resides.
- Information module 100 can be connected to the other modules by a variety of communication systems, such as paper, computer networks, the internet and telecommunication systems, such as wireless telecommunication systems.
- a system capable of receiving and processing real time consumer feedback and updates regarding changes in the nutritional, organoleptic, and/or aesthetic value of nutritional substances, or ⁇ N
- consumers can even play a role in updating a dynamic nutritional value database with observed or measured information about the nutritional substances they have purchased and/or prepared for consumption, so that the information is available and useful to others in the nutritional substance supply system, such as through reports reflecting the consumer input or through modification of ⁇ N.
- FIG. 2 is a graph showing the function of how a nutritional, organoleptic, or aesthetic value of a nutritional substance varies over the change in a condition of the nutritional substance. Plotted on the vertical axis of this graph can be either the nutritional value, organoleptic value, or even the aesthetic value of a nutritional substance. Plotted on the horizontal axis can be the change in condition of the nutritional substance over a variable such as time, temperature, location, and/or exposure to environmental conditions.
- This exposure to environmental conditions can include: exposure to air, including the air pressure and partial pressures of oxygen, carbon dioxide, water, or ozone; airborne chemicals, pollutants, allergens, dust, smoke, carcinogens, radioactive isotopes, or combustion byproducts; exposure to moisture; exposure to energy such as mechanical impact, mechanical vibration, irradiation, heat, or sunlight; or exposure to materials such as packaging.
- the function plotted as nutritional substance A could show a ⁇ N for milk, such as. the degradation of a nutritional value of milk over time. Any point on this curve can be compared to another point to measure and/or describe the change in nutritional value, or the ⁇ N of nutritional substance A.
- the plot of the degradation in the same nutritional value of nutritional substance B, also milk, describes the change in nutritional value, or the ⁇ N of nutritional substance B, a nutritional substance which starts out with a higher nutritional value than nutritional substance A, but degrades over time more quickly than nutritional substance A.
- this ⁇ N information regarding the nutritional substance degradation profile of each milk could be used by the consumer in the selection and/or consumption of the milk. If the consumer has this information at time zero when selecting a milk product for purchase, the consumer could consider when the consumer plans to consume the milk, whether that is on one occasion or multiple occasions. For example, if the consumer planned to consume the milk prior to the point when the curve represented by nutritional substance B crosses the curve represented by nutritional substance A, then the consumer should choose the milk represented by nutritional substance B because it has a higher nutritional value until it crosses the curve represented by nutritional substance A.
- This example demonstrates how dynamically generated information regarding a ⁇ N of a nutritional substance, in this case a change in nutritional value of milk, can be used to understand a rate at which that nutritional value changes or degrades; when that nutritional value expires; and a residual nutritional value of the nutritional substance over a change in a condition of the nutritional substance, in this example a change in time.
- This ⁇ N information could further be used to determine a best consumption date for nutritional substance A and B, which could be different from each other depending upon the dynamically generated information generated for each.
- Creation module 200 can dynamically encode nutritional substances to enable the tracking of changes in nutritional, organoleptic, and/or aesthetic value of the nutritional substance, or ⁇ N.
- This dynamic encoding also referred to herein as a dynamic information identifier, can replace and/or complement existing nutritional substance marking systems such as barcodes, labels, and/or ink markings.
- This dynamic encoding, or dynamic information identifier can be used to make nutritional substance information from creation module 200 available to information module 100 for use by preservation module 300 , transformation module 400 , conditioning module 500 , and/or consumption module 600 , which includes the ultimate consumer of the nutritional substance.
- One method of marking the nutritional substance with a dynamic information identifier by creation module 200 could include an electronic tagging system, such as the tagging system manufactured by Kovio of San Jose, Calif., USA.
- Such thin film chips can be used not only for tracking nutritional substances, by can include components to measure attributes of nutritional substances, and record and transmit such information.
- Such information may be readable by a reader including a satellite-based system.
- Such a satellite-based nutritional substance information tracking system could comprise a network of satellites with coverage of some or all the surface of the earth, so as to allow the dynamic nutritional value database of information module 100 real time, or near real time updates about a ⁇ N of a particular nutritional substance.
- Preservation module 300 includes packers and shippers of nutritional substances.
- the tracking of changes in nutritional, organoleptic, and/or aesthetic values, or a ⁇ N, during the preservation period within preservation module 300 allows for dynamic expiration dates for nutritional substances.
- expiration dates for dairy products are currently based generally only on time using assumptions regarding minimal conditions at which dairy products are maintained. This extrapolated expiration date is based on a worst-case scenario for when the product becomes unsafe to consume during the preservation period. In reality, the degradation of dairy products may be significantly less than this worst-case.
- an actual expiration date referred to herein as a dynamic expiration date
- an actual expiration date can be determined dynamically, and could be significantly later in time than an extrapolated expiration date. This would allow the nutritional substance supply system to dispose of fewer products due to expiration dates. This ability to dynamically generate expiration dates for nutritional substances is of particular significance when nutritional substances contain few or no preservatives. Such products are highly valued throughout nutritional substance supply system 10 , including consumers who are willing to pay a premium for nutritional substances with few or no preservatives.
- a dynamic expiration date need not be indicated numerically (i.e., as a numerical date) but could be indicated symbolically as by the use of colors—such as green, yellow and red employed on semaphores—or other designations. In those instances, the dynamic expiration date would not be interpreted literally but, rather, as a dynamically-determined advisory date. In practice a dynamic expiration date will be provided for at least one component of a single or multi-component nutritional substance. For multi-component nutritional substances, the dynamic expiration date could be interpreted as a “best” date for consumption for particular components.
- the food processors such as those in transformation module 400 are required to provide nutritional substance information regarding their products. Often, this information takes the form of a nutritional table applied to the packaging of the nutritional substance. Currently, the information in this nutritional table is based on averages or minimums for their typical product.
- the food processor could include a dynamically generated nutritional value table, also referred to herein as a dynamic nutritional value table, for the actual nutritional substance being supplied.
- the information in such a dynamic nutritional value table could be used by conditioning module 500 in the preparation of the nutritional substance, and/or used by consumption module 600 , so as to allow the ultimate consumer the ability to select the most desirable nutritional substance which meets their needs, and/or to track information regarding nutritional substances consumed.
- Information about changes in nutritional, organoleptic, and/or aesthetic values of nutritional substances, or ⁇ N is particularly useful in the conditioning module 500 of the present invention, as it allows knowing, or estimating, the pre-conditioning state of the nutritional, organoleptic, and/or aesthetic values of the nutritional substance, and allows for estimation of a ⁇ N associated with proposed conditioning parameters.
- the conditioning module 500 can therefore create conditioning parameters, such as by modifying existing or baseline conditioning parameters, to deliver desired nutritional, organoleptic, and/or aesthetic values after conditioning.
- the pre-conditioning state of the nutritional, organoleptic, and/or aesthetic value of a nutritional substance is not tracked or provided to the consumer by existing conditioners, nor is the ⁇ N expected from a proposed conditioning tracked or provided to the consumer either before or after conditioning.
- conditioning module 500 could provide the consumer with the actual, and/or estimated change in nutritional, organoleptic, and/or aesthetic values of the nutritional substance, or ⁇ N.
- consumer feedback and updates regarding observed or measured changes in the nutritional, organoleptic, and/or aesthetic value of nutritional substances, or ⁇ N can play a role in updating a dynamic nutritional value database with information about the nutritional substances consumers have purchased and/or prepared for consumption, so that the information is available and useful to others in the nutritional substance supply system, such as through reports reflecting the consumer input or through modification of ⁇ N.
- Such information regarding the change to nutritional, organoleptic and/or aesthetic value of the nutritional substance, or ⁇ N, could be provided not only to the consumer, but could also be provided to information module 100 for use by creation module 200 , preservation module 300 , transformation module 400 , so as to track, and possibly improve nutritional substances throughout the entire nutritional substance supply system 10 .
- the information regarding nutritional substances provided by information module 100 to consumption module 600 can replace or complement existing information sources such as recipe books, food databases like www.epicurious.com, and Epicurious apps.
- information module 100 can replace or complement existing information sources such as recipe books, food databases like www.epicurious.com, and Epicurious apps.
- consumers can use consumption module 600 to select nutritional substances according to nutritional, organoleptic, and/or aesthetic values. This will further allow consumers to make informed decisions regarding nutritional substance additives, preservatives, genetic modifications, origins, traceability, and other nutritional substance attributes that may also be tracked through the information module 100 .
- This information can be provided by consumption module 600 through personal computers, laptop computers, tablet computers, and/or smartphones. Software running on these devices can include dedicated computer programs, modules within general programs, and/or smartphone apps.
- consumption module 600 may provide information for the consumer to operate conditioning module 500 in such a manner as to optimize nutritional, organoleptic, and/or aesthetic values of a nutritional substance and/or component nutritional substances thereof, according to the consumer's needs or preference or according to target values established by the provider of the nutritional substance, such as the transformer, and/or minimize degradation of, preserve, or improve nutritional, organoleptic, and/or aesthetic value of a nutritional substance and/or component nutritional substances thereof.
- nutritional substance supply system 10 can track nutritional, organoleptic, and/or aesthetic value.
- nutritional substances travelling through nutritional substance supply system 10 can be dynamically valued and priced according to nutritional, organoleptic, and/or aesthetic values. For example, nutritional substances with longer dynamic expiration dates (longer shelf life) may be more highly valued than nutritional substances with shorter expiration dates. Additionally, nutritional substances with higher nutritional, organoleptic, and/or aesthetic values may be more highly valued, not just by the consumer, but also by each entity within nutritional substance supply system 10 . This is because each entity will want to start with a nutritional substance with higher nutritional, organoleptic, and/or aesthetic value before it performs its function and passes the nutritional substance along to the next entity.
- both the starting nutritional, organoleptic, and/or aesthetic value and the ⁇ N associated with those values are important factors in determining or estimating an actual, or residual, nutritional, organoleptic, and/or aesthetic value of a nutritional substance, and accordingly are important factors in establishing dynamically valued and priced nutritional substances.
- the producer of a ready-to-eat dinner would prefer to use corn of a high nutritional, organoleptic, and/or aesthetic value in the production of its product, the ready-to-eat dinner, so as to produce a premium product of high nutritional, organoleptic, and/or aesthetic value.
- the ready-to-eat dinner producer may be able to charge a premium price and/or differentiate its product from that of other producers.
- the producer will seek corn of high nutritional, organoleptic, and/or aesthetic value from preservation module 300 that meets its requirements for nutritional, organoleptic, and/or aesthetic value.
- the packager/shipper of preservation module 300 would also be able to charge a premium for corn which has high nutritional, organoleptic, and/or aesthetic values. And finally, the packager/shipper of preservation module 300 will select corn of high nutritional, organoleptic, and/or aesthetic value from the grower of creation module 200 , who will also be able to charge a premium for corn of high nutritional, organoleptic, and/or aesthetic values.
- the change to nutritional, organoleptic, and/or aesthetic value for a nutritional substance, or ⁇ N, tracked through nutritional substance supply system 10 through nutritional substance information from information module 100 can be preferably determined from measured information.
- some or all such nutritional substance ⁇ N information may be derived through measurements of environmental conditions of the nutritional substance as it traveled through nutritional substance supply system 10 .
- some or all of the nutritional substance ⁇ N information can be derived from ⁇ N data of other nutritional substances which have traveled through nutritional substance supply system 10 .
- Nutritional substance ⁇ N information can also be derived from laboratory experiments performed on other nutritional substances, which may approximate conditions and/or processes to which the actual nutritional substance has been exposed. Further, consumer feedback and updates regarding observed or measured changes in the nutritional, organoleptic, and/or aesthetic value of nutritional substances can play a role in updating ⁇ N information.
- laboratory experiments can be performed on bananas to determine effect on or change in nutritional, organoleptic, and/or aesthetic value, or ⁇ N, for a variety of environmental conditions bananas may be exposed to during packaging and shipment in preservation module 300 .
- tables and/or algorithms could be developed which would predict the level of change of nutritional, organoleptic, and/or aesthetic values, or ⁇ N, for a particular banana based upon information collected regarding the environmental conditions to which the banana was exposed during its time in preservation module 300 .
- While the ultimate goal for nutritional substance supply system 10 would be the actual measurement of nutritional, organoleptic, and/or aesthetic values to determine ⁇ N, use of derived nutritional, organoleptic, and/or aesthetic values from experimental data to determine ⁇ N would allow improved logistics planning because it provides the ability to prospectively estimate changes to nutritional, organoleptic, and/or aesthetic values, or ⁇ N, and because it allows more accurate tracking of changes to nutritional, organoleptic, and/or aesthetic values, or ⁇ N, while technology and systems are put in place to allow actual measurement.
- FIG. 3 shows an embodiment of transformation module 400 of the present invention.
- Transformation module 400 includes transformer 410 , which acts upon nutritional substance 420 , and information transmission module 430 .
- information transmission module 430 also receives, or retrieves information about the particular nutritional substance 420 that is to be transformed. This information can include creation information, preservation information, packaging information, shipping information, and possibly previous transformation information. After nutritional substance 420 has been transformed by transformer 410 , such information is passed along with the transformed nutritional substance 420 by the information transmission module 430 .
- sweet corn that arrives for processing by transformer 410 has origination information associated with it, including the corn variety, where it was planted, when it was planted, when it was picked, the soil it was grown in, the water used for irrigation, and the fertilizers and pesticides that were used during its growth.
- origination information may also be information on nutritional and/or organoleptic and/or aesthetic values of the corn when it was preserved for shipment.
- This information may be stored in the labeling of the corn. However, it may be stored in a database maintained by the grower, shipper, or the nutritional substances industry, also referred to herein as a dynamic nutritional value database.
- Such information could be accessed by means of telecommunications systems, such as wireless telecommunication systems.
- the corn may have information associated with it regarding how it was preserved for shipment from the farm to transformation module 400 .
- Such information may include historical information on the environment exterior the container it was shipped in, internal conditions of the container and actual information about the corn during the shipment. Additionally, if the preservation system acted upon such information in preserving the corn, information about the preservation measures may also be available.
- Such information may be stored in the preservation system. However, it may be stored in a database maintained by the grower, shipper, or the nutritional substances industry, also referred to herein as a dynamic nutritional value database. Such information could be accessed by means of telecommunications systems, such as wireless telecommunication systems.
- transformer 410 removes the husk and the silk from the corn. It then separates the kernels from the cob, washes the kernels, and cooks them. Finally, transformer 410 packages the cooked corn in a can and labels the can.
- the label on the can may contain all the information provided to information transmission module 430 .
- this information is referenced by a dynamic encode or tag, herein referred to as a dynamic information identifier, which identifies the information regarding the corn in the can that is being transmitted by information transmission module 430 .
- information transmission module 430 would receive the information regarding the nutritional substance 420 from a database that is being used to track the corn during its journey from the farm to the consumer.
- information transmission module 430 retrieves the appropriate information from the database and transmits it to another database.
- the information retrieved by transmission module 430 would be transmitted back to the original database, noting that the transformation had occurred.
- the information regarding the corn retrieved by transmission module 430 would simply be appended with the information that the transformation had occurred.
- Such databases are individually and collectively referred to herein as a dynamic nutritional value database.
- new reference information or a new dynamic information identifier may be created.
- the information for each may be combined and assigned a new reference number or a new dynamic information identifier.
- a new entry is created in the dynamic nutritional value database, with references to the information related to the corn and the information related to the lima beans.
- FIG. 4 shows an embodiment of transformation module 400 of the present invention.
- Transformation module 400 includes transformer 410 , which acts upon nutritional substance 420 , and information transmission module 430 .
- information transmission module 430 also receives, or retrieves information about the particular nutritional substance 420 that is to be transformed. This information can include creation information, packaging information, shipping information, and possibly previous transformation information.
- Once nutritional substance 420 has been transformed by transformer 410 such information is passed along with the transformed nutritional substance 420 by the information transmission module 430 , along with specific information relating to the transformation done by transformer 410 .
- sweet corn that arrives for processing by transformer 410 has origination information associated with it, including the corn variety, where it was planted, when it was planted, when it was picked, the soil it was grown in, the water used for irrigation, and the fertilizers and pesticides that were used during its growth.
- origination information including the corn variety, where it was planted, when it was planted, when it was picked, the soil it was grown in, the water used for irrigation, and the fertilizers and pesticides that were used during its growth.
- nutritional, organoleptic and aesthetic values of the corn when it was preserved for shipment This information may be stored in the labeling of the corn. However, it may be stored in a dynamic nutritional value database maintained by the grower, shipper, or the nutritional substances industry. Such information could be accessed by telecommunications systems, such as wireless telecommunication systems.
- the corn may have information associated with it regarding how it was preserved for shipment from the farm to transformation module 400 .
- Such information may include historical information on the environment exterior the container it was shipped in, internal conditions of the container and actual information about the corn during the shipment. Additionally, if the preservation system acted upon such information in preserving the corn, information about the preservation measures may also be available.
- Such information may be stored in the preservation system. However, it may be stored in a dynamic nutritional value database maintained by the grower, shipper, or the nutritional substances industry. Such information could be accessed by means of telecommunications systems, such as wireless telecommunication systems.
- transformer 410 removes the husk and the silk from the corn. It then separates the kernels from the cob, washes the kernels, and cooks them. Finally, transformer 410 packages the cooked corn in a can and labels the can.
- information about the transformation can be captured by transformer 410 and sent to information transmission module 430 .
- This information can include how the transformation was accomplished; including information on the transformer used, the recipe implemented by transformer 410 , and the settings for transformer 410 when the transformation occurred. Additionally, any information created during the transformation by transformer 410 can be sent to the information transmission module 430 . This could include measured information, such as the actual cooking temperature, length of time of each of the steps, or weight or volume measurements. Additionally, this information could include measured aesthetic, organoleptic and nutritional values.
- the label on the can may contain all the information provided to information transmission module 430 .
- this information is referenced by a dynamic information identifier which identifies the information regarding the corn in the can that is being transmitted by information transmission module 430 .
- information transmission module 430 would receive the information regarding the nutritional substance 420 from a database that is being used to track the corn during its journey from the farm to the consumer.
- information transmission module 430 retrieves the appropriate information from the database, appends it with the information from transformer 410 regarding the transformation, and transmits it to another database.
- such information would be transmitted back to the original database, including the transformation information.
- the information regarding the corn would simply be appended with the information from transformer 410 about the transformation.
- Such databases are individually and collectively referred to herein as a dynamic nutritional value database.
- new reference information or a new dynamic information identifier may be created.
- the information for each may be combined and assigned a new reference number or a new dynamic information identifier.
- a new entry is created in the dynamic nutritional value database, with references to the information related to the corn and the information related to the lima beans.
- FIG. 5 shows an embodiment of transformation module 400 of the present invention.
- Transformation module 400 includes transformer 410 , which acts upon nutritional substance 420 , and information transmission module 430 .
- information transmission module 430 also receives, or retrieves information about the particular nutritional substance 420 that is to be transformed. This information can include creation information, packaging information, shipping information, and possibly previous transformation information.
- This information is used by transformer 410 to dynamically modify the transformation, the process referred to herein as adaptive transformation. After nutritional substance 420 has been transformed by transformer 410 , such information is passed along with the transformed nutritional substance 420 by the information transmission module 430 , along with specific information relating to the adaptive transformation done by transformer 410 .
- sweet corn that arrives for processing by transformer 410 has origination information associated with it, including the corn variety, where it was planted, when it was planted, when it was picked, the soil it was grown in, the water used for irrigation, and the fertilizers and pesticides that were used during its growth.
- origination information including the corn variety, where it was planted, when it was planted, when it was picked, the soil it was grown in, the water used for irrigation, and the fertilizers and pesticides that were used during its growth.
- This information may be stored in the labeling of the corn. However, it may be stored in a dynamic nutritional value database maintained by the grower, shipper, or the nutritional substances industry. Such information could be accessed by telecommunications systems, such as wireless telecommunication systems.
- the corn may have information associated with it regarding how it was preserved for shipment from the farm to transformation module 400 .
- Such information may include historical information on the environment exterior the container it was shipped in, internal conditions of the container and actual information about the corn during the shipment. Additionally, if the preservation system acted upon such information in preserving the corn, information about the preservation measures may also be available.
- Such information may be stored in the preservation system. However, it may be stored in a database maintained by the grower, shipper, or the nutritional substances industry, also referred to herein as a dynamic nutritional value database. Such information could be accessed by means of telecommunications systems, such as wireless telecommunication systems.
- Transformer 410 can dynamically modify its transformation of nutritional substance 420 in response to such information to adaptively transform the nutritional substance in order to preserver or improve or minimize the degradation of the nutritional, organoleptic and/or aesthetic values of nutritional substance 420 .
- transformer 410 removes the husk and the silk from the corn. It then separates the kernels from the cob, washes the kernels, and cooks them.
- transformer can dynamically modify the cooking temperature and time. For example, if transformer 410 receives information that indicates that the corn is low in certain desirable nutrients, it might lower the cooking temperature and time to preserve those nutrients, thus achieving a more desirable nutritional value related to those specific nutrients in the transformed nutritional substance. However, if transformer 410 receives information that indicates that the corn is high in tough starches, it might raise the cooking temperature and time to soften the corn, thus achieving a more desirable organoleptic value related to the texture of the transformed nutritional substance. Finally, transformer 410 packages the cooked corn in a can and labels the can.
- transformer 410 can modify its transformation of the nutritional substance in response to measured attributes of the particular nutritional substance 420 being transformed. For example, transformer 410 can measure the color of the corn to be processed, and in response make adjustment to the transformation to preserve or enhance the color of the transformed corn, thus achieving a more desirable aesthetic value related to the appearance of the transformed nutritional substance.
- information about the transformation can be captured by transformer 410 and sent to information transmission module 430 .
- This information can include how the transformation was accomplished; including information on any dynamic transformation modifications in response to information about the particular nutritional substance to be transformed, the recipe implemented by transformer 410 , and the settings for transformer 410 when the transformation occurred.
- any information created during the transformation by transformer 410 can be sent to the information transmission module 430 . This could include measured information, such as the actual cooking temperature, length of time of each of the steps. Additionally, this information could include measured organoleptic, aesthetic, and nutritional information, weight, volume, and physical dimension.
- the label on the packaging may contain all the information provided to information transmission module 430 .
- this information is referenced by a dynamic information identifier which identifies the information regarding the nutritional substance in the packaging that is being transmitted by information transmission module 430 .
- information transmission module 430 would utilize a dynamic information identifier provided with the nutritional substance to retrieve and receive the information regarding the nutritional substance 420 from a database that is being used to track the corn during its journey from the farm to the consumer.
- information transmission module 430 retrieves the appropriate information from the database, appends it with the information from transformer 410 regarding the transformation, and transmits it to another database.
- such information would be transmitted back to the original database, including the transformation information.
- the information regarding the corn would simply be appended with the information from transformer 410 about the transformation.
- Such databases are individually and collectively referred to herein as a dynamic nutritional value database
- new reference information or a new dynamic information identifier may be created.
- the information for each may be combined and assigned a new reference number or a new dynamic information identifier.
- a new entry is created in the dynamic nutritional value database, with references to the information related to the corn and the information related to the lima beans.
- FIG. 6 shows an embodiment of a conditioning module 500 for conditioning nutritional substances transformed according to the present invention.
- Conditioner system 510 receives nutritional substance 420 for conditioning before it is delivered to consumer 540 .
- Controller 530 is operably connected to conditioner system 510 .
- controller 530 may be integrated within conditioner system 510 , although in FIG. 6 , it is shown as a separate device.
- nutritional substance reader 590 When conditioner system 510 receives nutritional substance 420 for conditioning, nutritional substance reader 590 either receives information regarding nutritional substance 420 and provides it to controller 530 , which is the case if the nutritional substance 420 contains a label which includes the information about nutritional substance 420 , and/or the nutritional substance reader 590 receives reference information, such as a dynamic information identifier, and provides it to controller 530 , allowing retrieval of the information about nutritional substance 420 from nutritional substance database 550 , which is the case when the nutritional substance is associated with, or provided with, a dynamic information identifier. In the case where nutritional substance 420 contains a label which includes information about nutritional substance 420 , nutritional substance reader 590 reads this information, provides it to controller 530 and makes it available to consumer 540 by means of consumer interface 560 .
- reference information such as a dynamic information identifier
- conditioner system 510 comprises conditioner 570 .
- Conditioner 570 is a conditioning apparatus which can perform a number of operations on nutritional substance 420 , separately and/or at the same time.
- conditioner 570 could be a combination microwave oven, convection oven, grill, and conventional oven.
- Controller 530 could operate conditioner 570 to execute a sequence of conditioning cycles on nutritional substance 420 to complete its conditioning.
- Controller 530 would receive and/or create a protocol of conditioning cycles.
- a protocol could be read by nutritional substance reader 590 from a label on nutritional substance 420 .
- a protocol of conditioning cycles could be obtained from nutritional substance database 550 through reference information such as a dynamic information identifier, obtained by nutritional substance reader 590 from nutritional substance 420 .
- a label on the turkey could be read by nutritional substance reader 590 , providing reference information for the turkey, such as a dynamic information identifier, which controller 530 uses to obtain a conditioning protocol for the turkey from nutritional substance database 550 .
- the conditioning protocol or parameters obtained are intended to optimize nutritional, organoleptic, or aesthetic values chosen and targeted by the transformer of the nutritional substance during transformation.
- the transformer of such a nutritional substance has the ability to market nutritional substances that will consistently attain nutritional, organoleptic, or aesthetic values that provide high perceived value to consumers. It is a further advantage to the consumers that such a nutritional substance requires only the ability to follow a simple conditioning protocol to achieve optimal results, rather that requiring high skill levels, professional or highly specialized cooking equipment, and a large investment of time.
- An example of such a transformed nutritional substance could be a turkey and dressing entrée.
- the primary components of this nutritional substance are the fresh-refrigerated turkey or fresh-frozen turkey, preferably frozen by a CAS (Cells Alive System), and the components for the dressing.
- Each component has its own component packaging, and can further include sub-components which have their own sub-component packaging.
- the outer packaging for this nutritional substance further includes a disposable roasting pan with built in drip tray, roasting pan cover, and environmentally friendly basting brush and oven mitts.
- the components for this entrée include individually packaged fresh-refrigerated or fresh-frozen turkey, sea salt, cracked pepper, lemon juice, canola oil, white wine, bread crumbs, fresh butter, whole fresh onion, and fresh garlic clove.
- Components included for preparation include disposable roasting pan with built in drip tray, roasting pan cover, and environmentally friendly basting brush and oven mitts.
- the nutritional substance is provided to the consumer with a dynamic information identifier.
- the dynamic information identifier enables the consumer to prepare a turkey entrée that consistently achieves optimal nutritional, organoleptic, or aesthetic values, as chosen and targeted by the transformer during transformation.
- the transformer of this turkey entrée has chosen flavor and texture of both the turkey and the dressing being transformed as the target post conditioning organoleptic property.
- the chosen target dictates many criteria regarding selection of component ingredients. As will become apparent, it also dictates many specific requirements for packaging and preservation.
- the present invention can only be accomplished with the benefit of ⁇ N information, in this example, changes in organoleptic value of the nutritional substance occurring before transformation and at transformation and during post transformation preservation and changes in organoleptic value estimated to occur from proposed conditioning.
- FIG. 1 An example of a transformation protocol for such a turkey and dressing entrée will be illustrative of the present invention, but is only one of many ways that the present invention may be practiced.
- the transformer in this example has chosen flavor and texture of both the turkey and dressing in this entrée.
- the transformer of such a nutritional substance seeks the marketplace advantage of providing a product that is simple to prepare and consistently delivers optimal flavor and texture.
- Component selection, packaging, and providing the transformed nutritional substance with a dynamic information identifier unique to the nutritional substance will enable the transformer to accomplish the goal of providing a turkey and dressing entrée with optimal organoleptic values for flavor and texture.
- the selection of the turkey may include; fresh-refrigerated turkeys only, or might include fresh-frozen turkey, preferably frozen by CAS; specific preservation requirements; transformation within a certain time from slaughter; free range turkeys; organic turkeys; toms or hens; minimum and maximum weight requirements; feed requirements; breed requirements, region requirements; fat content requirements, and others.
- a system that provides source and ⁇ N information for nutritional substances on their journey through the nutritional substance supply system is of great advantage. Similarly, selection of other components is important, and knowing source and ⁇ N information is a great advantage.
- the sea salt is from the North Sea; the cracked pepper is from Italia; and the white wine, butter, canola oil, bread crumbs, garlic, and onions benefit from similar source information, as well as ⁇ N information.
- Packaging the components of the turkey and dressing entrée individually is a further advantage in the present invention, as the components will best maintain their individual nutritional, organoleptic, and aesthetic values, and the source and ⁇ N information for each can be utilized at the time the components are combined for conditioning.
- an example of a conditioning protocol for such a turkey and dressing entrée will be illustrative of the present invention, but is only one of many ways that the present invention may be practiced.
- the transformer has chosen to optimize flavor and texture of the turkey and dressing entrée, and has sourced a fresh-refrigerated turkey, as this type of meal is intended for a traditional holiday gathering in the United States and the transformer understands the difficulty of preparing this type of entrée without the benefit of dynamic nutritional substance information.
- Conditioner module 500 could operate in the following fashion.
- Nutritional substance reader 590 obtains the dynamic information identifier from nutritional substance 420 and provides it to controller 530 .
- Controller 530 uses the dynamic information identifier to retrieve a conditioning protocol from nutritional substance database 550 .
- This protocol is dynamically generated, as it is generated responsive to source and dynamic information about the nutritional substance corresponding to the dynamic information identifier.
- the initial weight of the turkey is known, and the dynamic information about moisture loss can be estimated from preservation data, or may be available through a direct weight measurement made by the conditioner 570 .
- a protocol is created responsive to the measured or estimated moisture loss regarding cooking time and temperature for a conditioner 570 , which in this case could be a conventional oven.
- a basting protocol is generated responsive to the moisture loss data, ideally instructing the time or frequency of basting.
- a protocol is generated for the preparation of the dressing responsive to this data. This is because the weight and moisture content in the turkey influences the conditioned dressing, as the dressing is cooked inside of the turkey while the turkey is conditioned. Further, the moisture content, butter content, and white wine content in the dressing will influence the moisture content in the conditioned turkey. Therefore, the protocol retrieved additionally instructs the quantity of bread crumbs, white wine, butter, onion, and garlic to be combined when preparing the dressing.
- the protocol further instructs the time required for the turkey to reach room temperature, the order or time of application of various components such as lemon juice, sea salt, and canola oil, and when to prepare the dressing and when to place dressing inside the turkey.
- the controller 530 instructs conditioner 570 to operate as a convection oven to cook the turkey, according to the conditioning protocol obtained for the turkey from nutritional substance database 550 , for a sufficient length of time and at an appropriate temperature so as to ensure that the turkey attains the targeted nutritional, organoleptic or aesthetic properties of both the turkey and the dressing.
- the target properties were flavor and texture, for example, to assure that the turkey meat is moist, tender, and flavorful and that the dressing is flavorful, not too dry, not too wet, and not too oily.
- the conditioning protocol obtained for the turkey from nutritional substance database 550 may depend upon a direct measurement of the internal temperature of the turkey, or a combination of measured temperature and time.
- the conditioning protocol obtained for the turkey from nutritional substance database 550 may depend upon a direct measurement by an optical sensor of external aesthetic values of the turkey such as color, change of color, texture, or change of texture.
- the conditioning protocol obtained for the turkey from nutritional substance database 550 may depend upon a direct measurement by an infrared sensor of the surface temperature of the turkey, or a combination time, measured aesthetic values, or measured surface temperature.
- conditioner system 510 could be composed of a plurality of conditioners 570 . While an automated system for moving a nutritional substance between such conditioners would be optimal, conditioner system 510 could be operated manually by consumer 540 from instructions provided by the controller 530 to consumer interface 560 . In this embodiment, controller 530 could provide consumer 540 with instructions as to where to move the turkey after each step in a conditioning protocol. For example, if in this example the transformer had sourced a fresh-frozen turkey and the turkey was provided to the consumer frozen, controller 530 could instruct consumer 540 through consumer interface 560 to first place the frozen turkey in conditioner 570 , a microwave oven.
- Controller 530 instructs the microwave oven to defrost the turkey based on information possibly provided by nutritional substance database 550 or possibly conditioner 570 or possibly nutritional substance reader 590 .
- controller 530 could instruct consumer 540 through interface 560 to prepare dressing, remove turkey from microwave oven, place dressing in defrosted turkey, place lemon juice, sea salt, cracked pepper, and canola oil on turkey, place turkey in roasting pan, cover roasting pan, and move the turkey to another conditioner 570 , a convection oven.
- Controller 530 would operate the convection oven to cook the turkey for a sufficient length of time at an appropriate temperature so as to ensure that the target optimal flavor and texture of the turkey and dressing entrée is attained.
- controller 530 could instruct consumer 540 through interface 560 as to when to baste the turkey. Finally, following the cooking cycle in the convection oven, controller 530 could instruct consumer 540 through consumer interface 560 to move the turkey from the convection oven to another conditioner 570 , a grill. Controller 530 would operate the grill so as to grill the turkey for a sufficient period of time to create a desirable golden and crispy skin.
- conditioner system 510 could be composed of a plurality of conditioners 570 ; and a consumer 540 (which would include any individuals preparing the turkey for consumption), fulfilling additional conditioner rolls, as will be explained. While an automated system for moving a nutritional substance between such conditioners would be optimal, conditioner system 510 could be operated manually by consumer 540 from instructions provided by a consumer interface 560 , which in this case could be a handheld device such as a cellular phone, tablet computer, PDA, or any other device useful for communicating with nutritional substance database 550 and the consumer 540 . The handheld device additionally fulfills the roll of nutritional substance reader 590 and controller 530 .
- the consumer 540 can utilize a camera function of the handheld device to read a barcode, or QR code, on or associated with the turkey and dressing entrée, wherein the code provides a dynamic information identifier.
- the handheld device can then use the dynamic information identifier to retrieve information regarding the turkey and dressing entrée from nutritional substance database 550 .
- consumer 540 utilizes the handheld device to read a barcode (or any other readable code) on the turkey and dressing entrée, the barcode containing a dynamic information identifier associated with information regarding the turkey and dressing entrée within the nutritional substance database 550 .
- the consumer 540 uses the handheld device to retrieve and review a conditioning protocol from nutritional substance database 550 , and is accordingly instructed as to where to move the turkey for each step in the conditioning protocol and further instructed on how and when to prepare the dressing, how and when to season the turkey and place dressing inside, and the conditioning parameters required for each step of the conditioning protocol.
- consumer 540 retrieves and reviews a conditioning protocol from nutritional substance database 550 using the handheld device and is instructed to first place the frozen turkey in conditioner 570 , a microwave oven, and further instructed on conditioning parameters for the microwave oven to defrost the turkey.
- Consumer 540 is instructed that upon completion of defrosting by the microwave oven, the turkey is to be removed, dressing is to be prepared and placed inside of turkey, and sea salt, cracked pepper, and canola oil is to be placed on turkey, and turkey is to be place in roasting pan and covered. Consumer 540 is further instructed that the turkey is to be moved to another conditioner 570 , a convection oven. Consumer 540 is further instructed on conditioning parameters for the convection oven to cook the turkey for a sufficient length of time and at an appropriate temperature so as to ensure that the turkey reaches the targeted optimal flavor and texture properties. During conditioning in the convection oven, controller 530 instructs consumer 540 through interface 560 as to when to baste the turkey.
- consumer 540 is instructed that upon completion of cooking by the convection oven, the turkey is to be moved to another conditioner 570 , a grill, and further instructed on conditioning parameters for the grill so as to grill the turkey for a sufficient period of time to create a desirable golden and crispy skin.
- conditioner system 510 is a plurality of conditioners 570
- controller 530 could manage conditioners 570 within conditioner system 510 so as to produce a complete meal.
- controller 530 could select conditioning protocols which would maximize the use of each conditioner 570 .
- controller 530 could stage and operate the microwave oven, convection oven, and grill to minimize preparation time for the meal by determining which item should be cooked in which conditioner 570 , in which order, to maximize usage of each conditioner 570 in conditioning system 510 .
- controller 530 could instruct consumer 540 through interface 560 to place the bread dough in the convection oven and the acorn squash on the grill.
- controller 530 instructs consumer to prepare dressing and place dressing inside of turkey, and instructs that sea salt, cracked pepper, and canola oil is to be placed on turkey, and instructs that turkey is to be place in roasting pan and covered when the turkey is moved to the convection oven when it finished baking the bread.
- the controller 530 could further instruct that the bread could be moved to the grill for browning, and the acorn squash could be moved to microwave oven to keep warm, until the entire meal is ready.
- the bread dough and acorn squash could be part of the turkey and dressing entrée or obtained separately.
- nutritional substance reader 590 would read a label on nutritional substance 520 thereby receiving information regarding nutritional substance 420 , and then provide the information to controller 530 .
- This information could include creation information as to the creation of the various components which constitute the ready-to-eat dinner.
- This information could include information about where and how the corn in the ready-to-eat dinner was grown, including the corn seed used, where it was planted, how it was planted, how it was irrigated, when it was picked, and information on fertilizers and pesticides used during its growth. Additionally, this information could include the cattle lineage, health, immunization, dietary supplements that were fed to the cattle that was slaughtered to obtain the beef in the ready-to-eat dinner.
- the information from a label on nutritional substance 420 could also include information on how the components were preserved for shipment from the farm or slaughterhouse on their path to the nutritional substance transformer who prepared the ready-to-eat dinner. Additional information could include how the nutritional substance transformer transformed the components into the ready-to-eat dinner, such as recipe used, additives to the dinner, and actual measured conditions during the transformation into the ready-to-eat dinner. Additional information may also be present regarding the preservation of the ready-to-eat dinner after transformation.
- the label on the nutritional substance package includes reference information, such as a dynamic information identifier, which is read by nutritional substance reader 590 and provided to controller 530 that allows controller 530 to retrieve the information about nutritional substance 420 from nutritional substance database 550 .
- reference information such as a dynamic information identifier
- Nutritional substance database 550 could be a database maintained by the transformer of nutritional substance 420 for access by consumers of such nutritional substance 420 to track or estimate changes in the nutritional, organoleptic, and/or aesthetic values of those nutritional substances, as well as any other information about the nutritional substance that can be tracked, including but not limited to the examples previously described.
- nutritional substance database 550 is a database within information module 100 that is maintained by the nutritional substance industry for all such information regarding nutritional substances grown, raised, preserved, transformed, conditioned and consumed by consumer 540 , in which case it is the database contained within information module 100 and also referred to herein as a dynamic nutritional value database.
- controller 530 in addition to providing information regarding nutritional substance 420 to consumer 540 , also receives information from conditioner system 510 on how nutritional substance 420 was conditioned. Additionally, conditioner system 510 may also measure or sense information about nutritional substance 420 during its conditioning by conditioner system 510 , and provide such information to controller 530 , so that such information could also be provided to consumer 540 , via consumer interface 560 .
- controller 530 organizes and correlates the information it receives regarding nutritional substance 420 from the various sources of such information, including nutritional substance database 550 and conditioner system 510 , and presents such information through consumer interface 560 to consumer 540 in a manner useful to consumer 540 .
- information may be provided in a manner that assists consumer 540 in understanding how nutritional substance 420 meets consumer's 540 nutritional needs before or after conditioning, or how it meets the consumer's needs based on proposed conditioning parameters intended to optimize particular nutritional, organoleptic, or aesthetic values targeted by the transformer of the nutritional substance at the time of transformation, or targeted by the consumer at the time of conditioning.
- Controller 530 could have access to, or maintain, information regarding consumer 540 , so as to track and assist consumer 540 in meeting their specific nutritional needs.
- conditioner system 510 could be a plurality of conditioner devices which can be selectively operated by controller 530 to prepare nutritional substance 420 .
- Conditioner system 510 can be either a single conditioning device, such as a microwave oven, conventional oven, toaster, blender, steamer, stovetop, or human cook.
- Conditioner system 510 may be a plurality of conditioners 570 .
- nutritional substance 420 may be manually or automatically transferred between conditioners 570 for eventual transfer to consumer 540 .
- Nutritional substance reader 590 may be an automatic reader such as a barcode reader or RFID sensor which receives information from nutritional substance 420 or a reference code from nutritional substance 420 , such as a dynamic information identifier, and provides this information to controller 530 .
- Nutritional substance reader 590 might also be a manual entry system where the reference code, such as a dynamic information identifier associated with, or provided with the nutritional substance 420 is manually entered into nutritional substance reader 590 for controller 530 .
- Nutritional substance database 550 could be a flat database, relational database or, preferably, a multi-dimensional database.
- Nutritional substance database 550 could be local but, preferably, it would be located remotely, such as on the internet, and accessed via a telecommunication system, such as a wireless telecommunication system.
- Controller 530 can be implemented using a computing device, such as a micro-controller, micro-processor, personal computer, or tablet computer. Controller 530 could be integrated to include nutritional substance reader 590 , consumer interface 560 , and/or nutritional substance database 550 . Additionally, controller 530 may be integrated in conditioner system 510 , including integration into conditioner 570 .
- FIGS. 6-7 of various embodiments of the present invention show nutritional substance database 550 as part of the conditioner module 500 , they are in no way limited to this interpretation. It is understood that this convention is only one way of illustrating the inventions described herein, and it is further understood that this is in no way limiting to the scope of the present invention. The same is understood for recipe database 555 , consumer database 580 , and nutritional substance industry database 558 .
- any of nutritional substance database 550 , recipe database 555 , consumer database 580 , and nutritional substance industry database 558 can be contained within information module 100 or within conditioner module 500 .
- Consumer interface 560 can be implemented as a display device mounted on controller 530 , conditioner system 510 , or conditioner 570 .
- consumer interface 560 is preferably a tablet computer, personal computer, personal assistant, or smart phone, running appropriate software, such as an app.
- conditioner module 500 can be located in the consumer's home, conditioner module 500 may be located at a restaurant or other food service establishment for use in preparing nutritional substances 420 for consumers who patronize such an establishment. Additionally, conditioner module 500 could be located at a nutritional substance seller such as a grocery store or health food store for preparation of nutritional substances 420 purchased by consumers at such an establishment. It could be foreseen that conditioner modules 500 could become standalone businesses where consumers select nutritional substances for preparation at the establishment or removal from the establishment for consumption elsewhere.
- controller 530 uses nutritional substance information retrieved by nutritional substance reader 590 from nutritional substance 420 , or retrieved from nutritional substance database 550 using reference information obtained by nutritional substance reader 590 from nutritional substance 420 , to dynamically modify the operation of conditioner system 510 to maintain nutritional, organoleptic, and aesthetic properties of nutritional substance 420 .
- controller 530 could modify the instructions to conditioner system 530 in response to source and ⁇ N information regarding corn used in the ready-to-eat dinner such that a temperature and cooking duration can be modified to affect the nutritional, organoleptic, or aesthetic properties of the corn.
- the modified conditioning parameters may be directly intended to optimize a nutritional, organoleptic, or aesthetic property of the corn targeted by the transformer of the ready-to-eat dinner during transformation.
- the label on nutritional substance 420 could contain the conditioning instructions for nutritional substance 420 , or a reference, such as a dynamic information identifier, to such conditioning instructions in nutritional substance database 550 . In operation, this would allow controller 530 to obtain information about nutritional substance 420 on how to dynamically operate conditioner system 510 to condition nutritional substance 420 , without consumer intervention. Additionally, conditioning instructions for nutritional substance 420 could be provided for a variety of different conditioner systems 510 , or conditioners 570 , and controller could select the proper conditioning instructions. The dynamic operation of conditioner system 510 may be directly intended to optimize a nutritional, organoleptic, or aesthetic property of the nutritional substance targeted by the transformer of the nutritional substance during transformation.
- nutritional substance reader 590 or conditioner system 510 measures or senses information about the current state of nutritional substance 420 and provides such information to controller 530 to allow controller 530 to dynamically modify operation of conditioner system 510 .
- consumer 540 provides information regarding their needs or desires with regard to the nutritional substance 420 to consumer interface 560 .
- Consumer interface 560 provides this information to controller 530 so as to allow controller 530 to dynamically modify conditioning parameters used by conditioner system 510 in the conditioning of nutritional substance 420 , or to request from nutritional substance database 550 dynamically modified conditioning parameters to be used by conditioner system 510 in the conditioning of nutritional substance 420 .
- Consumer's 540 needs or desires could include nutritional parameters, organoleptic parameters, or aesthetic parameters. For example, consumer 540 may have needs for certain nutrients which are present in nutritional substance 420 prior to conditioning. Controller 530 could modify operation of conditioner system 510 so as to preserve such nutrients.
- conditioner system 510 can cook the nutritional substance at a lower temperature or for a shorter duration so as to minimize nutrient loss.
- the consumer's 540 needs or desires may be related to particular nutritional, organoleptic, or aesthetic values, and may additionally be related to other nutritional substance attributes that are retrievable through the nutritional substance database 550 using a dynamic information identifier, such as nutritional substance additives, preservatives, genetic modifications, origins, and traceability. Further, the consumer's needs or desires could be part of a consumer profile provided to the controller 530 through the consumer interface 560 or otherwise available to controller 530 .
- the consumer's needs or desires could be exclusionary in nature, for example no products of animal origin, no peanuts or peanut-derived products, no farm raised products, no pork products, or no imported products.
- the nutritional substance database 550 could provide information that would prevent the consumer from preparing or consuming products that the consumer cannot, should not, or prefers not to consume.
- the consumer's 540 nutritional, organoleptic or aesthetic desires could include how rare or well done they prefer a particular nutritional substance to be prepared. For example, consumer 540 may prefer his vegetables to be crisp or pasta to be prepared al dente.
- controller 530 can dynamically modify operation of conditioner system 510 responsive to the consumer information and provide a nutritional substance according to the consumer's desires.
- controller 530 receives information regarding the history of nutritional substance 420 , current information on nutritional substance 420 , and consumer 540 needs or desires, and dynamically modifies operation of conditioner system 510 responsive to the information so as to provide a nutritional substance according to the consumer's needs or desires. For example, if nutritional substance 420 is a steak, controller 530 would receive reference information, such as a dynamic information identifier, regarding the steak, nutritional substance 420 , from nutritional substance reader 590 . Controller 530 would use this reference information to obtain information about the steak from nutritional substance database 550 . Controller 530 could also receive current information about the steak from nutritional substance reader 590 or conditioner 510 . Additionally, controller 530 could receive consumer 540 preferences from consumer interface 560 .
- reference information such as a dynamic information identifier
- controller 530 could receive information from conditioner system 510 during the conditioning of the steak, nutritional substance 420 . Using some or all of such information, controller 530 would dynamically modify the cooking of the steak to preserve, optimize, or enhance organoleptic, nutritional, and aesthetic properties to meet the consumer's 540 needs. For example, the steak could be cooked slowly to preserve iron levels within the meat, and also cooked to well-done to meet consumer's 540 taste.
- Conditioner system 510 can prepare a nutritional substance for consumer 540 which contains a plurality of nutritional substances 420 .
- Conditioner module 500 includes recipe database 555 which is operably connected to controller 530 .
- Recipe database 555 can be part of nutritional substance database 550 , or it can be a stand-alone database. While recipe database 555 can be located locally, it is preferably accessible to many conditioner modules 500 through a telecommunications system such as the internet, including wireless telecommunications systems.
- Controller 530 is also preferably connected to consumer database 580 .
- Consumer database 580 may be additionally connected to consumer interface 560 .
- Consumer database 580 could include consumer's 540 nutritional, organoleptic and aesthetic needs and preferences, and could be in the form of a consumer profile custom tailored to an individual consumer or selected from a menu of consumer profiles.
- Consumer database 580 may receive input regarding consumer 540 from consumer 540 , but could also include information supplied by consumer's 540 medical records, exercise records for the consumer's gym, and other information sources.
- Consumer database 580 could include information regarding regulatory actions and/or manufacturer warnings or recalls of nutritional substances which may be obtained, have been obtained, or may be prepared or consumed by the consumer.
- consumer database 580 could include information regarding consumer's 540 preferences provided by controller 530 for previous nutritional substance 420 conditionings. Additionally, consumer database 580 could include consumer preferences from external sources such as restaurants and grocery stores where consumer 540 purchases nutritional substances 420 . Finally, consumer database 580 could include information from consumer module 600 , in FIG. 1 .
- Consumer database 580 could be a local database maintained by controller 530 or consumer interface 560 .
- consumer database 580 is part of a nutritional substance industry database containing such information regarding a plurality of consumers 540 .
- controller 530 can operate to select the necessary ingredients, nutritional substance 420 , to prepare a meal.
- nutritional substance 420 could be a plurality of nutritional substances 420 .
- consumer 540 could select a dinner menu using consumer interface 560 .
- consumer 540 could select a specific recipe from recipe database 555 or could select a recipe source within database 555 , such as low salt meals or recipes by a certain well-known chef.
- Controller 530 could prepare a shopping list for consumer 540 through consumer interface 560 .
- controller 530 could transmit a shopping list to a nutritional substance 420 supplier such as a grocery store, so consumer 540 could pick up such items already selected or could have such items delivered.
- controller 530 could modify or suggest a recipe that used only nutritional substances 420 available to conditioner module 500 .
- controller 530 would utilize information in its various databases to prepare such a meal.
- controller 530 would match its inventory of available nutritional substances with recipes from the well-known Italian chef in recipe database 555 and find available recipes.
- Controller 530 could select a recipe that optimized consumer's 540 needs and preferences and prepare a meal using conditioner system 510 .
- controller 530 could present various options to consumer 540 using consumer interface 560 , highlighting features of each available meal from the standpoint of consumer's 540 nutritional needs and/or preferences.
- nutritional substance database 550 is part of nutritional substance industry database 558 .
- Controller 530 would communicate with nutritional substance industry database 558 through a communication system such as the internet, and preferably a telecommunications system such as wireless telecommunications. In such an arrangement, controller 530 could even verify that local supermarkets have the items in stock, retrieve and transmit a route to get to the supermarket from the consumer's current location, and further retrieve and transmit a route to follow within the supermarket to efficiently obtain the items.
- FIGS. 6-7 of various embodiments of the present invention show nutritional substance database 550 as part of the conditioner module 500 , they are in no way limited to this interpretation. It is understood that this convention is only one way of illustrating the inventions described herein, and it is further understood that this is in no way limiting to the scope of the present invention. The same is understood for recipe database 555 , consumer database 580 , and nutritional substance industry database 558 .
- any of nutritional substance database 550 , recipe database 555 , consumer database 580 , and nutritional substance industry database 558 can be contained within information module 100 or within conditioner module 500 .
- the words “comprise,” “comprising,” and the like are to be construed in an inclusive sense (i.e., to say, in the sense of “including, but not limited to”), as opposed to an exclusive or exhaustive sense.
- the terms “connected,” “coupled,” or any variant thereof means any connection or coupling, either direct or indirect, between two or more elements. Such a coupling or connection between the elements can be physical, logical, or a combination thereof.
- the words “herein,” “above,” “below,” and words of similar import when used in this application, refer to this application as a whole and not to any particular portions of this application.
- words in the above Detailed Description using the singular or plural number may also include the plural or singular number respectively.
- the word “or,” in reference to a list of two or more items, covers all of the following interpretations of the word: any of the items in the list, all of the items in the list, and any combination of the items in the list.
Abstract
Disclosed herein is a transformation system to create a nutritional substance product that obtains information regarding the nutritional substance components to be transformed, the desired transformation, and the desired properties, including nutritional content, of the transformed nutritional substance, and dynamically modifies the transformation in response to this information to optimize a nutritional, organoleptic or aesthetic value of the nutritional substance product after it has been prepared for consumption.
Various component nutritional substances are individually or collectively transformed and preserved, then provided to consumers or conditioners in a format allowing retrieval of preparation instructions unique to the individual nutritional product at the time of preparation and intended to optimize a nutritional, organoleptic, or aesthetic value targeted by the transformer during transformation.
Description
- The present inventions relate to transformation of nutritional substances in conjunction with the collection, transmission, and use of information regarding source and preservation and transformation information of the nutritional substance. Particularly, transformation of nutritional substances according to the present invention results in a nutritional substance product wherein various component nutritional substances will be quickly and easily conditioned for consumption to achieve optimal nutritional, organoleptic or aesthetic characteristics targeted by the transformer of the nutritional substance.
- This application is a continuation of Utility application Ser. No. 13/485,863 filed May 31, 2012 (Attorney Docket No. 053883-032), which claims priority to U.S. Provisional Patent Application Ser. No. 61/624,992 filed Apr. 16, 2012; U.S. Provisional Patent Application Ser. No. 61/625,002, filed Apr. 16, 2012; and U.S. Provisional Patent Application, 61/625,010, filed Apr. 16, 2012, the contents of which are incorporated herein by reference in their entirety.
- Nutritional substances are traditionally grown (plants), raised (animals) or synthesized (synthetic compounds). Additionally, nutritional substances can be found in a wild, non-cultivated form, which can be caught or collected. While the collectors and creators of nutritional substances generally obtain and/or generate information about the source, history, caloric content and/or nutritional content of their products, they generally do not pass such information along to the users of their products. One reason is the nutritional substance industries have tended to act like “silo” industries. Each group in the food and beverage industry: growers, packagers, processors, distributors, retailers, and preparers work separately, and either shares no information, or very little information, between themselves. There is generally no consumer access to, and little traceability of, information regarding the creation and/or origin, preservation, processing, preparation, or consumption of nutritional substances. It would be desirable for such information be available to the consumers of nutritional substances, as well as all participants in the food and beverage industry—the nutritional substance supply system.
- While the nutritional substance supply system has endeavored over the last 50 years to increase the caloric content of nutritional substances produced (which has help reduce starvation in developing countries, but has led to obesity and other problems in developed countries), maintaining, or increasing, the nutritional content of nutritional substances has been a lower priority and is done in a synthetic manner. Caloric content refers to the energy in nutritional substances, commonly measured in calories. The caloric content could be represented as sugars and/or carbohydrates in the nutritional substances. The nutritional content, also referred to herein as nutritional value, of foods and beverages, as used herein, refers to the non-caloric content of these nutritional substances which are beneficial to the organisms which consume these nutritional substances. For example, the nutritional content of a nutritional substance could include vitamins, minerals, proteins, and other non-caloric components which are necessary, or at least beneficial, to the organism consuming the nutritional substances.
- While there has recently been greater attention by consumer organizations, health organizations and the public to the nutritional content of foods and beverages, the food and beverage industry has been slow in responding to this attention. One reason for this may be that since the food and beverage industry operates as silos of those who create nutritional substances, those who preserve and transport nutritional substances, those who transform nutritional substances, and those who finally prepare the nutritional substances for consumption by the consumer, there has been no system wide coordination or management of nutritional content, and no practical way for creators, preservers, transformers, and conditioners to update labeling content for nutritional substances. While each of these silo industries may be able to maintain or increase the nutritional content of the foods and beverages they handle, each silo industry has only limited information and control of the nutritional substances they receive, and the nutritional substances they pass along.
- As consumers better understand their need for nutritional substances with higher nutritional content, they will start demanding that the food and beverage industry offer products which include higher nutritional content, and/or at least information regarding nutritional content of such products, as well as information regarding the source, creation and other origin information for the nutritional substance. In fact, consumers are already willing to pay higher prices for higher nutritional content. This can be seen at high-end grocery stores which offer organic, minimally processed, fresh, non-adulterated nutritional substances. Further, as societies and governments seek to improve their constituents' health and lower healthcare costs, incentives and/or mandates will be given to the food and beverage industry to track, maintain, and/or increase the nutritional content of nutritional substances they handle. There will be a need, not only within each food and beverage industry silo to maintain or improve the nutritional content of their products, but an industry-wide solution to allow the management of nutritional content across the entire cycle from creation to consumption. In order to manage the nutritional content of nutritional substances across the entire cycle from creation to consumption, the nutritional substance industry will need to identify, track, measure, estimate, preserve, transform, condition, and record nutritional content for nutritional substances. Of particular importance is the measurement, estimation, and tracking of changes to the nutritional content of a nutritional substance from creation to consumption. This information could be used, not only by the consumer in selecting particular nutritional substances to consume, but could be used by the other food and beverage industry silos, including creation, preservation, transformation, and conditioning, to make decisions on how to create, handle and process nutritional substances. Additionally, those who sell nutritional substances to consumers, such as restaurants and grocery stores, could communicate perceived qualitative values of the nutritional substance in their efforts to market and position their nutritional substance products. Further, a determinant of price of the nutritional substance could be particular nutritional, organoleptic, or aesthetic values, and if changes to those values are perceived as desirable. For example, if a desirable value has been maintained, improved, or minimally degraded, it could be marketed as a premium product. Still further, a system allowing creators, preservers, transformers, and conditioners of nutritional substances to update labeling content to reflect the most current information about the nutritional substance would provide consumers with the information they need to make informed decisions regarding the nutritional substances they purchase and consume. Such information updates could include nutritional, organoleptic, or aesthetic values of the nutritional substance, and may further include information regarding the source, creation and other origin information for the nutritional substance.
- For example, the grower of sweet corn generally only provides basic information as the variety and grade of its corn to the packager, who preserves and ships the corn to a producer for use in a ready-to-eat dinner. The packager may only tell the producer that the corn has been frozen as loose kernels of sweet corn. The producer may only provide the consumer with rudimentary instructions how to cook or reheat the ready-to-eat dinner in a microwave oven, toaster oven or conventional oven, and only tell the consumer that the dinner contains whole kernel corn among the various items in the dinner. Finally, the consumer of the dinner will likely keep her opinions on the quality of the dinner to herself, unless it was an especially bad experience, where she might contact the producer's customer support program to complain. Very minimal, or no, information on the nutritional content of the ready-to-eat dinner is passed along to the consumer. The consumer knows essentially nothing about changes (generally a degradation, but could be a maintenance or even an improvement) to the nutritional content of the sweet corn from creation, processing, packaging, cooking, preservation, preparation by consumer, and finally consumption by the consumer. The consumer is even more unlikely to be aware of possible changes to labeling content that a creator, preserver, transformer, or conditioner may just have become be aware of, such as changes in information about nutritional, organoleptic, or aesthetic values of the nutritional substance or changes in information regarding the source, creation and other origin information about the nutritional substance. If communicated, such changes to labeling content could affect a purchasing preference or consumption preference of a consumer. Further, if communicated, such changes to labeling content could affect the health, safety, and wellbeing of the consumer. It is also clear that such changes would best be communicated rapidly and by a means readily utilized by a consumer.
- Consumers' needs are changing as consumers are demanding healthier foods, such as “organic foods.” Customers are also asking for more information about the nutritional substances they consume, such as specific characteristics' relating not only to nutritional content, but to allergens or digestive intolerances. For example, nutritional substances which contain lactose, gluten, nuts, dyes, etc. need to be avoided by certain consumers. However, the producer of the ready-to-eat dinner, in the prior example, has very little information to share other than possibly the source of the elements of the ready-to-eat dinner and its processing steps in preparing the dinner. Generally, the producer of the ready-to-eat dinner does not know the nutritional content and organoleptic state and aesthetic condition of the product after it has been reheated or cooked by the consumer, cannot predict changes to these properties, and cannot inform a consumer of this information to enable the consumer to better meet their needs. For example, the consumer may want to know what proportion of desired organoleptic properties or values, desired nutritional content or values, or desired aesthetic properties or values of the corn in the ready-to-eat dinner remain after cooking or reheating, and the change in the desired nutritional content or values, the desired organoleptic properties or values, or the desired aesthetic properties or values (usually a degradation, but could be a maintenance or even improvement). There is a need to preserve, measure, estimate, store and/or transmit information regarding such nutritional, organoleptic, and aesthetic values, including changes to these values, throughout the nutritional substance supply system. Given the opportunity and a system capable of receiving and processing real time consumer feedback and updates regarding changes in the nutritional, organoleptic, and/or aesthetic value of nutritional substances, consumers can even play a role in updating dynamic information about the nutritional substances they have purchased and/or prepared for consumption, such that that information is available and useful to others in the nutritional substance supply system.
- The caloric and nutritional content information for a prepared food that is provided to the consumer is often minimal. For example, when sugar is listed in the ingredient list, the consumer generally does receive any information about the source of the sugar, which can come from a variety of plants, such as sugarcane, beets, or corn, which will affect its nutritional content. Conversely, some nutritional information that is provided to consumers is so detailed, the consumer can do little with it. For example, this of ingredients is from a nutritional label on a consumer product: Vitamins—A 355 IU 7%, E 0.8 mg 4%, K 0.5 mcg, 1%, Thiamin 0.6 mg 43%, Riboflavin 0.3 mg 20%, Niacin 6.0 mg 30%, B6 1.0 mg 52%, Foliate 31.5 mcg 8%, Pantothenic 7%; Minerals Calcium 11.6 1%, Iron 4.5 mg 25%, Phosphorus 349 mg 35%, Potassium 476 mg 14%, Sodium 58.1 mg 2%, Zinc 3.7 mg 24%, Copper 0.5 mg 26%, Manganese 0.8 mg 40%, Selenium 25.7 mcg 37%; Carbohydrate 123 g, Dietary fiber 12.1 g, Saturated fat 7.9 g, Monosaturated Fat 2.1 g, Polysaturated Fat 3.6 g, Omega 3 fatty acids 108 g, Omega 6 fatty acids 3481, Ash 2.0 g and Water 17.2 g. (%=Daily Value). There is a need to provide information about nutritional substances in a meaningful manner. Such information needs to be presented in a manner that meets the specific needs of a particular consumer. For example, consumers with a medical condition, such as diabetes, would want to track specific information regarding nutritional values associated with sugar and other nutrients in the foods and beverages they consume, and would benefit further from knowing changes in these values or having tools to quickly indicate or estimate these changes in a retrospective, current, or prospective fashion, and even tools to report these changes, or impressions of these changes, in a real-time fashion.
- In fact, each silo in the food and beverage industry already creates and tracks some information, including caloric and nutritional information, about their product internally. For example, the farmer who grew the corn knows the variety of the seed, condition of the soil, the source of the water, the fertilizers and pesticides used, and can measure the caloric and nutritional content at creation. The packager of the corn knows when it was picked, how it was transported to the packaging plant, how the corn was preserved and packaged before being sent to the ready-to-eat dinner producer, when it was delivered to the producer, and what degradation to caloric and nutritional content has occurred. The producer knows the source of each element of the ready-to-eat dinner, how it was processed, including the recipe followed, and how it was preserved and packaged for the consumer. Not only does such a producer know what degradation to caloric and nutritional content occurred, the producer can modify its processing and post-processing preservation to minimally affect nutritional content. The preparation of the nutritional substance for consumption can also degrade the nutritional content of nutritional substances. Finally, the consumer knows how she prepared the dinner, what condiments were added, and whether she did or did not enjoy it.
- If there was a mechanism to share this information, the quality of the nutritional substances, including caloric and nutritional, organoleptic, and aesthetic value, could be preserved and improved. Consumers could be better informed about nutritional substances they select and consume, including the state, and changes in the state, of the nutritional substance throughout its lifecycle from creation to consumption. The efficiency and cost effectiveness of nutritional substances could also be improved. Feedback within the entire chain from creator to consumer could provide a closed-loop system that could improve quality (taste, appearance, and caloric and nutritional content), efficiency, value and profit. For example, in the milk supply chain, at least 10% of the milk produced is wasted due to safety margins included in product expiration dates. The use of more accurate tracking information, measured quality (including nutritional content) information, and historical environmental information could substantially reduce such waste. Collecting, preserving, measuring and/or tracking information about a nutritional substance in the nutritional substance supply system, would allow needed accountability. There would be nothing to hide.
- As consumers are demanding more information about what they consume, they are asking for products that have higher and better nutritional content and more closely match good nutritional requirements, and would like nutritional products to actually meet their specific nutritional requirements. While grocery stores, restaurants, and all those who process and sell food and beverages may obtain some information from current nutritional substance tracking systems, such as labels, these current systems can provide only limited information.
- Traditional food processors take nutritional substances from producers and transform them into nutritional substances for consumption by consumers. While they have some knowledge of the nutritional substances they purchase, and make such selections to meet the needs of the consumers, they generally do not transmit that information along to consumers, nor change the way they transform the nutritional substances based on the history or current condition of the nutritional substances they receive for transformation.
- Consumers of nutritional substances are sometimes given options on how to prepare nutritional substances they have obtained from the store, such as different cooking devices: microwave ovens, conventional ovens, etc., and/or limited taste preferences such as crunchy or soft. However, if the consumer desires to prepare a specific recipe, they must obtain all the proper ingredients themselves, as well as prepare the recipe themselves including which cooking appliances need to be used. Further, the consumer has no way of knowing the history or current condition of the nutritional substances they obtain for preparing a desired recipe. Still further, the consumer has no way of knowing how to change or modify the conditioning process to achieve desired nutritional, organoleptic, and aesthetic properties after preparation.
- An important issue in the creation, preservation, transformation, conditioning, and consumption of nutritional substances are the changes that occur in nutritional substances due to a variety of internal and external factors. Because nutritional substances are composed of biological, organic, and/or chemical compounds, they are generally subject to degradation. This degradation generally reduces the nutritional, organoleptic, and/or aesthetic values of nutritional substances. While not always true, nutritional substances are best consumed at their point of creation. However, being able to consume nutritional substances at the farm, at the slaughterhouse, at the fishery, or at the food processing plant is at least inconvenient, if not impossible. Currently, the food and beverage industry attempts to minimize the loss of nutritional value (often through the use of additives or preservatives), and/or attempts to hide this loss of nutritional value from consumers.
- Overall, the examples herein of some prior or related systems and their associated limitations are intended to be illustrative and not exclusive. Other limitations of existing or prior systems will become apparent to those of skill in the art upon reading the following Detailed description.
- It is an object of present invention that a transformer of nutritional substance maintains creation and/or preservation information for components of a transformed nutritional substance.
- It is another object of the present invention that a transformer of nutritional substance maintains creation and/or preservation information for components of a transformed nutritional substance and additionally provides information regarding the transformation.
- It is an object of the present invention that a transformer of nutritional substance maintains creation and/or packaging information for components of a transformed nutritional substance.
- It is another object of the present invention that a transformer of nutritional substance maintains creation and/or packaging information for components of a transformed nutritional substance and additionally provides information regarding the transformation.
- It is a further object of the present invention to utilize the source and packaging and preservation information to modify or adapt the transformation of the nutritional substance to preserve and/or minimize degradation of and/or improve nutritional value and/or quality of the transformed nutritional substance. Additionally, such information can be used by an automated system to adaptively transform the nutritional substance so as to preserve and/or minimize degradation of and/or improve nutritional, organoleptic, or aesthetic value and/or quality of the transformed nutritional substance.
- It is an object of the present invention to minimize and/or track degradation of nutritional, organoleptic, and/or aesthetic value of nutritional substances, and/or collect, store, and/or transmit information regarding this degradation.
- It is an object of the present invention to transform nutritional substances in order to create a nutritional substance product for conditioning and consumption wherein various component nutritional substances are: transformed, individually or collectively and including in some cases partial conditioning; preserved, individually or collectively and in some cases requiring different packaging and storage conditions; and provided to consumers or conditioners in a format allowing preparation unique to the individual nutritional product at the time of preparation that achieves optimized nutritional, organoleptic or aesthetic values which were targeted by the transformer at transformation. It is a further object that said format allowing preparation unique to the individual nutritional product is conditioning by conditioning parameters which are modified responsive to the nutritional, organoleptic, or aesthetic state of the nutritional substance upon transformation and changes in the nutritional, organoleptic, or aesthetic state following its post transformation preservation.
- It is an object of the present invention to obtain information regarding the source, packaging and transformation of the nutritional substance to provide to the consumer.
- It is another object of the present invention to obtain information regarding the source, packaging and transformation of the nutritional substance, and the conditioning of the nutritional substance to provide to the consumer.
- It is a further object of the present invention that a nutritional substance product transformed according to the present invention enable the retrieval and utilization of preparation instructions unique to that individual nutritional substance product at the time of preparation to achieve optimized nutritional, organoleptic or aesthetic values which were targeted by the transformer at transformation. In this way, the targeted post conditioning nutritional, organoleptic, or aesthetic value of the nutritional substance is responsive to: an optimal nutritional, organoleptic, or aesthetic state of the nutritional substance upon transformation to achieve post preservation/post conditioning targeted nutritional, organoleptic, or aesthetic values; actual changes in the nutritional, organoleptic, or aesthetic state following its post transformation preservation; and estimated changes in the nutritional, organoleptic, or aesthetic state following its conditioning, wherein conditioning is dynamically modified responsive to: said optimal nutritional, organoleptic, or aesthetic state of the nutritional substance upon transformation; and to actual changes in the nutritional, organoleptic, or aesthetic state following its post transformation preservation, such that targeted nutritional, organoleptic, or aesthetic values are achieved.
- It is a further object of the present invention to modify the conditioning of the nutritional substance according to the source, packaging and/or transformation information.
- It is a further object of the present invention to use source, packaging and transformation information to appropriately select the conditioning settings for a single conditioning apparatus and/or multiple conditioning apparatuses.
- It is a further object of the present invention to select the conditioning settings according to the preferences or recommendations of the transformer.
- It is an object of the present invention to minimize and/or track degradation of nutritional, organoleptic, and/or aesthetic value of nutritional substances, and/or collect, store, and/or transmit information regarding this degradation, through and including the preparation and consumption of the nutritional substances.
- It is an object of the present invention to estimate a required change in a nutritional, organoleptic, or aesthetic value of a nutritional substance (ΔN) to be accomplished through conditioning, prior to conditioning, in order to achieve a target nutritional, organoleptic, or aesthetic value through conditioning. It is a further object that said estimate is responsive to the nutritional, organoleptic, or aesthetic state of the nutritional substance upon transformation and changes in the nutritional, organoleptic, or aesthetic state following its post transformation preservation
- It is a further object of the present invention to modify the conditioning of the nutritional substance to attain said target nutritional, organoleptic, or aesthetic value of the conditioned nutritional substance.
- It is a further object of the present invention to estimate a change in a nutritional, organoleptic, or aesthetic value of a nutritional substance (ΔN) being conditioned prior to conditioning and communicate the estimated change to a consumer before and/or after conditioning.
- It is a further object of the present invention to receive, and reflect through reporting or modification of a nutritional substance database, consumer reports regarding observed or measured changes in nutritional, organoleptic, and/or aesthetic values of nutritional substances they have purchased, are going to prepare, or are going to consume.
- In an embodiment of the present invention, the transformer of nutritional substances obtains and transmits source and/or preservation information to be utilized by users and/or consumers of the transformed nutritional substance.
- In another embodiment of the present invention, the transformer of nutritional substances obtains and transmits source and/or preservation information and information regarding the transformation to be utilized by users and/or consumers of the transformed nutritional substance.
- In an embodiment of the present invention, the transformer of nutritional substances obtains and transmits source and/or packaging information to be utilized by users and/or consumers of the transformed nutritional substance.
- In another embodiment of the present invention, the transformer of nutritional substances obtains and transmits source and/or packaging information and information regarding the transformation to be utilized by users and/or consumers of the transformed nutritional substance.
- In a further embodiment of the present invention, source and/or packaging and/or preservation information is used by the transformer to adaptively transform the nutritional substance, that is, to modify or adapt the process for transformation of the nutritional substance so as to preserve and/or minimize degradation of and/or improve nutritional, organoleptic, or aesthetic value and/or quality of the transformed nutritional substance.
- In another embodiment of the present invention, source and/or packaging and/or preservation information for multiple components of the nutritional substance being transformed are used to adaptively transform the nutritional substance, that is, to modify or adapt the process for transformation of the nutritional substance so as to preserve and/or minimize degradation of and/or improve nutritional, organoleptic, or aesthetic value and/or quality of the transformed nutritional substance or of specific components of the transformed nutritional substance.
- In another embodiment of the present invention, source and/or packaging and/or preservation information for multiple components of the nutritional substance being transformed are used to adaptively transform the nutritional substance so as to optimize (such as to preserve and/or minimize degradation of and/or improve) nutritional, organoleptic, or aesthetic value and/or quality of the transformed nutritional substance, or of specific components of the transformed nutritional substance subsequent to conditioning by or for a consumer, wherein said value or quality is targeted by the transformer at transformation.
- In another embodiment of the present invention, source and transformation and post transformation packaging or preservation information for multiple components of the transformed nutritional substance are used to adaptively condition the transformed nutritional substance so as to achieve a target nutritional, organoleptic, or aesthetic value or quality of the conditioned nutritional substance or of specific components of the conditioned nutritional substance subsequent to conditioning by or for a consumer, wherein said value or quality is targeted by the transformer at transformation.
- In another embodiment of the present invention information regarding a change of nutritional, organoleptic, and/or aesthetic value of nutritional substances, collectively and individually referred to herein as ΔN, is: measured or collected or calculated or created or estimated or indicated or determined in any suitable manner; stored and/or tracked and/or transmitted and/or processed prior to transformation and/or following transformation, such that the degradation of specific nutritional, organoleptic, and/or aesthetic values can be minimized and specific residual nutritional, organoleptic, and/or aesthetic value can be optimized. A change of nutritional, organoleptic, and/or aesthetic value may not occur, in which case ΔN would be zero. The change of nutritional, organoleptic, and/or aesthetic value may be a degradation, in which case ΔN would be negative. The change of nutritional, organoleptic, and/or aesthetic value may be an improvement, in which case ΔN would be positive.
- An embodiment of the present invention provides a system for the creation, collection, storage, transmission, and/or processing of information regarding nutritional substances so as to improve, maintain, or minimize degradation of nutritional, organoleptic, and/or aesthetic value of nutritional substances. Additionally, the present invention provides such information for use by the creators, preservers, transformers, conditioners, and consumers of nutritional substances. The nutritional information creation, preservation, and transmission system of the present invention should allow the nutritional substance supply system to improve its ability to minimize degradation of nutritional, organoleptic and/or aesthetic value of the nutritional substance, and/or inform the consumer about such degradation. The ultimate goal of the nutritional substance supply system is to minimize degradation of nutritional, organoleptic and/or aesthetic values, or as it relates to ΔN, minimize the negative magnitude of ΔN. However, an interim goal should be providing consumers with significant information regarding any change, particularly degradation, of nutritional, organoleptic and/or aesthetic values of nutritional substances consumers select and consume, the ΔN, such that desired information regarding specific residual nutritional, organoleptic, and/or aesthetic values can be ascertained using the ΔN. Entities within the nutritional substance supply system who provide such ΔN information regarding nutritional substances, particularly regarding degradation, will be able to differentiate their products from those who obscure and/or hide such information. Additionally, such entities should be able to charge a premium for products which either maintain their nutritional, organoleptic, and/or aesthetic value, or supply more complete information about changes in their nutritional, organoleptic, and/or aesthetic value, the ΔN.
- In an embodiment of the present invention, information related to or determined from source, packaging and transformation information of a nutritional substance or component nutritional substances thereof, is transmitted to the consumer prior to and/or following the conditioning of the nutritional substance.
- In another embodiment of the present invention, information related to or determined from source, packaging, transformation, and post transformation preservation information of a nutritional substance or component nutritional substances thereof, is used in the conditioning of the nutritional substance to optimize post conditioning nutritional, organoleptic, or aesthetic values targeted by the transformer of the nutritional substance during transformation. The targeted nutritional, organoleptic, or aesthetic values may improve a perceived quality of the conditioned nutritional substance or minimize degradation, preserve, or improve desirable nutritional, organoleptic, or aesthetic characteristics of the nutritional substance.
- In an embodiment of the present invention, information regarding changes in nutritional, organoleptic, or aesthetic properties of a nutritional substance and/or component nutritional substances thereof, resulting from a proposed conditioning of a nutritional substance is transmitted to the consumer before and/or following the conditioning of the nutritional substance.
- In a further embodiment of the present invention, one or more conditioning apparatuses use information related to, or determined from, source, packaging and/or transformation information of a nutritional substance and/or component nutritional substances thereof, to modify the conditioning of the nutritional substance in order to achieve target nutritional, organoleptic, or aesthetic values determined or targeted by the transformer during transformation, wherein the modified conditioning is responsive to the a nutritional, organoleptic, or aesthetic state of the nutritional substance upon transformation and changes in the nutritional, organoleptic, or aesthetic state following its post transformation preservation.
- In another embodiment of the present invention, information about the consumer's needs or preferences are used by the conditioning apparatus in the preparation of the nutritional substance to determine the target nutritional, organoleptic, or aesthetic values.
- In a further embodiment of the present invention, external recipe information is used by the conditioning apparatus to modify the conditioning of the nutritional substance. The external recipe information could be provided by the transformer of the nutritional substance, which could be the case in which the transformer has chosen to optimize particular nutritional, organoleptic, or aesthetic values of their own choosing. In such a case, a transformer with knowledge of source, transformation, and subsequent ΔN information regarding a nutritional substance they have transformed and packaged will be able to recommend conditioning parameters which take into account actual preservation ΔN and conditioning ΔN to optimize the selected nutritional, organoleptic, or aesthetic value following preservation and conditioning.
- In another embodiment of the present invention information regarding a change of nutritional, organoleptic, and/or aesthetic value of a nutritional substance and/or component nutritional substances thereof, collectively and individually referred to herein as ΔN, is: measured or collected or calculated or created or estimated or indicated or determined in any suitable manner; stored and/or tracked and/or transmitted and/or processed prior to conditioning and following conditioning, such that a target residual nutritional, organoleptic, or aesthetic values can be attained, wherein said target value is selected by the transformer of the nutritional substance. In this way, a target post conditioning nutritional, organoleptic, or aesthetic value of the nutritional substance, selected by the transformer of the nutritional substance, accounts for: the nutritional, organoleptic, or aesthetic state of the nutritional substance upon transformation; changes in the nutritional, organoleptic, or aesthetic state following its post transformation preservation; and changes in the nutritional, organoleptic, or aesthetic state following its conditioning.
- An embodiment of the present invention provides a system for the creation, collection, storage, transmission, and/or processing of information regarding nutritional substances so as to improve, maintain, or minimize degradation of nutritional, organoleptic, and/or aesthetic value of nutritional substances. Additionally, the present invention provides such information for use by the creators, preservers, transformers, conditioners, and consumers of nutritional substances. The nutritional information creation, preservation, and transmission system of the present invention should allow the nutritional substance supply system to improve its ability to minimize degradation of nutritional, organoleptic and/or aesthetic value of the nutritional substance, and/or inform the consumer, creator, packager, transformer, or conditioner about such degradation, or ΔN. While the ultimate goal of the nutritional substance supply system is to minimize degradation of nutritional, organoleptic and/or aesthetic values, or as it relates to ΔN, minimize the negative magnitude of ΔN, an interim goal should be providing consumers with significant information regarding any change, particularly degradation, of nutritional, organoleptic and/or aesthetic values of nutritional, and/or component nutritional substances thereof, consumers select and consume, the ΔN, such that desired information regarding specific residual nutritional, organoleptic, and/or aesthetic values can be ascertained using the ΔN. Entities within the nutritional substance supply system who provide such ΔN information regarding nutritional substances, particularly regarding degradation, will be able to differentiate their products from those who obscure and/or hide such information. Additionally, such entities should be able to charge a premium for products which either maintain their nutritional, organoleptic, and/or aesthetic value, or supply more complete information about changes in their nutritional, organoleptic, and/or aesthetic value, the ΔN. Further, entities that supply conditioning equipment and other devices enabling consumer access and utilization of ΔN information will be able to differentiate their products from those that do not enable the consumer to access and utilize ΔN information. Such conditioning equipment will allow consumers to minimize degradation of, preserve, or improve the nutritional, organoleptic, and/or aesthetic value of the nutritional substances they consume. Such conditioners will further enable the consumer to optimize the nutritional, organoleptic, and/or aesthetic value of the nutritional substances they condition and consume according to their individual needs and desires, or according to target values established by the provider, such as the transformer, of the nutritional substance. In the case that said target values are established by the provider of the nutritional substance, a target post conditioning nutritional, organoleptic, or aesthetic value of the nutritional substance can be achieved with a high degree of precision and consistency, as the entire process of achieving said post conditioning values has accounted for: the optimal nutritional, organoleptic, or aesthetic state of the nutritional substance upon transformation to achieve post preservation/post conditioning target nutritional, organoleptic, or aesthetic values; actual changes in the nutritional, organoleptic, or aesthetic state following its post transformation preservation; and estimated changes in the nutritional, organoleptic, or aesthetic state following its conditioning.
- In an embodiment of the present invention, a transformer obtains a nutritional substance or the components thereof and determines source and ΔN information for the nutritional substance or components. Using the source and ΔN information, the transformer dynamically transforms the nutritional substance or components such that a nutritional, organoleptic, or aesthetic value, selected by the transformer, is optimized for future preservation and conditioning. The transformer then packages the nutritional substance and provides it with a dynamic information identifier. The dynamic information identifier is associated with source and ΔN information for the nutritional substance, or its components, related to transformation, post transformation preservation, and conditioning parameters to be proposed at the time of conditioning, and allows a consumer of the transformed nutritional substance to retrieve the proposed conditioning parameters to optimize said selected nutritional, organoleptic, or aesthetic value of the nutritional substance or component after preservation and conditioning. The consumer of the nutritional substance transformed in this fashion uses the dynamic information identifier to retrieve source and ΔN information as well as the proposed conditioning parameters. The consumer, or an entity preparing the nutritional substance for the consumer, can then condition the nutritional substance or components, according to the proposed conditioning parameters so as to optimize said selected nutritional, organoleptic, or aesthetic value.
- In an embodiment of the present invention, observed or measured ΔN information can also be provided by consumers, so that it can be received and reflected through reporting or modification of a nutritional substance database, consumer reports regarding observed or measured changes in nutritional, organoleptic, and/or aesthetic values of nutritional substances they have purchased, are going to prepare, or are going to consume.
- Other advantages and features will become apparent from the following description and claims. It should be understood that the description and specific examples are intended for purposes of illustration only and not intended to limit the scope of the present disclosure.
- The accompanying drawings, which are incorporated in and constitute a part of this specification, exemplify the embodiments of the present invention and, together with the description, serve to explain and illustrate principles of the invention. The drawings are intended to illustrate major features of the exemplary embodiments in a diagrammatic manner. The drawings are not intended to depict every feature of actual embodiments nor relative dimensions of the depicted elements, and are not drawn to scale.
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FIG. 1 shows a schematic functional block diagram of a nutritional substance supply relating to the present invention; -
FIG. 2 shows a graph representing a value of a nutritional substance which changes according to a change of condition for the nutritional substance; -
FIG. 3 shows a schematic functional block diagram of thetransformation module 400 according to the present invention; -
FIG. 4 shows a schematic functional block diagram of thetransformation module 400 according to the present invention; and -
FIG. 5 shows a schematic functional block diagram of thetransformation module 400 according to the present invention; and -
FIG. 6 shows a schematic functional block diagram of theconditioning module 500 according to an alternate embodiment of the present invention; and -
FIG. 7 shows a schematic functional block diagram of theconditioning module 500 according to an alternate embodiment of the present invention. - In the drawings, the same reference numbers and any acronyms identify elements or acts with the same or similar structure or functionality for ease of understanding and convenience. To easily identify the discussion of any particular element or act, the most significant digit or digits in a reference number refer to the Figure number in which that element is first introduced.
- Various examples of the invention will now be described. The following description provides specific details for a thorough understanding and enabling description of these examples. One skilled in the relevant art will understand, however, that the invention may be practiced without many of these details. Likewise, one skilled in the relevant art will also understand that the invention can include many other obvious features not described in detail herein. Additionally, some well-known structures or functions may not be shown or described in detail below, so as to avoid unnecessarily obscuring the relevant description.
- The terminology used below is to be interpreted in its broadest reasonable manner, even though it is being used in conjunction with a detailed description of certain specific examples of the invention. Indeed, certain terms may even be emphasized below; however, any terminology intended to be interpreted in any restricted manner will be overtly and specifically defined as such in this Detailed Description section.
- The following discussion provides a brief, general description of a representative environment in which the invention can be implemented. Although not required, aspects of the invention may be described below in the general context of computer-executable instructions, such as routines executed by a general-purpose data processing device (e.g., a server computer or a personal computer). Those skilled in the relevant art will appreciate that the invention can be practiced with other communications, data processing, or computer system configurations, including: wireless devices, Internet appliances, hand-held devices (including personal digital assistants (PDAs)), wearable computers, all manner of cellular or mobile phones, multi-processor systems, microprocessor-based or programmable consumer electronics, set-top boxes, network PCs, mini-computers, mainframe computers, and the like. Indeed, the terms “controller,” “computer,” “server,” and the like are used interchangeably herein, and may refer to any of the above devices and systems.
- While aspects of the invention, such as certain functions, are described as being performed exclusively on a single device, the invention can also be practiced in distributed environments where functions or modules are shared among disparate processing devices. The disparate processing devices are linked through a communications network, such as a Local Area Network (LAN), Wide Area Network (WAN), or the Internet. In a distributed computing environment, program modules may be located in both local and remote memory storage devices.
- Aspects of the invention may be stored or distributed on tangible computer-readable media, including magnetically or optically readable computer discs, hard-wired or preprogrammed chips (e.g., EEPROM semiconductor chips), nanotechnology memory, biological memory, or other data storage media. Alternatively, computer implemented instructions, data structures, screen displays, and other data related to the invention may be distributed over the Internet or over other networks (including wireless networks), on a propagated signal on a propagation medium (e.g., an electromagnetic wave(s), a sound wave, etc.) over a period of time. In some implementations, the data may be provided on any analog or digital network (packet switched, circuit switched, or other scheme).
- In some instances, the interconnection between modules is the internet, allowing the modules (with, for example, WiFi capability) to access web content offered through various web servers. The network may be any type of cellular, IP-based or converged telecommunications network, including but not limited to Global System for Mobile Communications (GSM), Time Division Multiple Access (TDMA), Code Division Multiple Access (CDMA), Orthogonal Frequency Division Multiple Access (OFDM), General Packet Radio Service (GPRS), Enhanced Data GSM Environment (EDGE), Advanced Mobile Phone System (AMPS), Worldwide Interoperability for Microwave Access (WiMAX), Universal Mobile Telecommunications System (UMTS), Evolution-Data Optimized (EVDO), Long Term Evolution (LTE), Ultra Mobile Broadband (UMB), Voice over Internet Protocol (VoIP), Unlicensed Mobile Access (UMA), etc.
- The modules in the systems can be understood to be integrated in some instances and in particular embodiments, only particular modules may be interconnected.
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FIG. 1 shows the components of anutritional substance industry 10. It should be understood that this could be the food and beverage ecosystem for human consumption, but could also be the feed industry for animal consumption, such as the pet food industry. A goal of the present invention fornutritional substance industry 10 is to create, preserve, transform and trace the change in nutritional, organoleptic and/or aesthetic values of nutritional substances, collectively and individually also referred to herein as ΔN, through their creation, preservation, transformation, conditioning and consumption. While thenutritional substance industry 10 can be composed of many companies or businesses, it can also be integrated into combinations of business serving many roles, or can be one business or even individual. Since ΔN is a measure of the change in a value of a nutritional substance, knowledge of a prior value (or state) of a nutritional substance and the ΔN value will provide knowledge of the changed value (or state) of a nutritional substance, and can further provide the ability to estimate a change in value (or state). -
Module 200 is the creation module. This can be a system, organization, or individual which creates and/or originates nutritional substances. Examples of this module include a farm which grows produce; a ranch which raises beef; an aquaculture farm for growing shrimp; a factory that synthesizes nutritional compounds; a collector of wild truffles; or a deep sea crab trawler. -
Preservation module 300 is a preservation system for preserving and protecting the nutritional substances created bycreation module 200. Once the nutritional substance has been created, generally, it will need to be packaged in some manner for its transition to other modules in thenutritional substances industry 10. Whilepreservation module 300 is shown in a particular position in thenutritional substance industry 10, following thecreation module 200, it should be understood that thepreservation module 300 actually can be placed anywhere nutritional substances need to be preserved during their transition from creation to consumption. -
Transformation module 400 is a nutritional substance processing system, such as a manufacturer who processes raw materials such as grains into breakfast cereals.Transformation module 400 could also be a ready-to-eat dinner manufacturer who receives the components, or ingredients, also referred to herein as component nutritional substances, for a ready-to-eat dinner frompreservation module 300 and prepares them into a frozen dinner. Whiletransformation module 400 is depicted as one module, it will be understood that nutritional substances may be transformed by a number oftransformation modules 400 on their path to consumption. -
Conditioning module 500 is a consumer preparation system for preparing the nutritional substance immediately before consumption by the consumer.Conditioning module 500 can be a microwave oven, a blender, a toaster, a convection oven, a cook, etc. It can also be systems used by commercial establishments to prepare nutritional substance for consumers such as a restaurant, an espresso maker, pizza oven, and other devices located at businesses which provide nutritional substances to consumers. Such nutritional substances could be for consumption at the business or for the consumer to take out from the business.Conditioning module 500 can also be a combination of any of these devices used to prepare nutritional substances for consumption by consumers. -
Consumer module 600 collects information from the living entity which consumes the nutritional substance which has passed through the various modules from creation to consumption. The consumer can be a human being, but could also be an animal, such as pets, zoo animals and livestock, which are they themselves nutritional substances for other consumption chains. Consumers could also be plant life which consumes nutritional substances to grow. -
Information module 100 receives and transmits information regarding a nutritional substance between each of the modules in thenutritional substance industry 10 including, thecreation module 200, thepreservation module 300, thetransformation module 400, theconditioning module 500, and theconsumer module 600. The nutritionalsubstance information module 100 can be an interconnecting information transmission system which allows the transmission of information between various modules.Information module 100 contains a database, also referred to herein as a dynamic nutritional value database, where the information regarding the nutritional substance resides.Information module 100 can be connected to the other modules by a variety of communication systems, such as paper, computer networks, the internet and telecommunication systems, such as wireless telecommunication systems. In a system capable of receiving and processing real time consumer feedback and updates regarding changes in the nutritional, organoleptic, and/or aesthetic value of nutritional substances, or ΔN, consumers can even play a role in updating a dynamic nutritional value database with observed or measured information about the nutritional substances they have purchased and/or prepared for consumption, so that the information is available and useful to others in the nutritional substance supply system, such as through reports reflecting the consumer input or through modification of ΔN. -
FIG. 2 is a graph showing the function of how a nutritional, organoleptic, or aesthetic value of a nutritional substance varies over the change in a condition of the nutritional substance. Plotted on the vertical axis of this graph can be either the nutritional value, organoleptic value, or even the aesthetic value of a nutritional substance. Plotted on the horizontal axis can be the change in condition of the nutritional substance over a variable such as time, temperature, location, and/or exposure to environmental conditions. This exposure to environmental conditions can include: exposure to air, including the air pressure and partial pressures of oxygen, carbon dioxide, water, or ozone; airborne chemicals, pollutants, allergens, dust, smoke, carcinogens, radioactive isotopes, or combustion byproducts; exposure to moisture; exposure to energy such as mechanical impact, mechanical vibration, irradiation, heat, or sunlight; or exposure to materials such as packaging. The function plotted as nutritional substance A could show a ΔN for milk, such as. the degradation of a nutritional value of milk over time. Any point on this curve can be compared to another point to measure and/or describe the change in nutritional value, or the ΔN of nutritional substance A. The plot of the degradation in the same nutritional value of nutritional substance B, also milk, describes the change in nutritional value, or the ΔN of nutritional substance B, a nutritional substance which starts out with a higher nutritional value than nutritional substance A, but degrades over time more quickly than nutritional substance A. - If, in this example, where nutritional substance A and nutritional substance B are milk, this ΔN information regarding the nutritional substance degradation profile of each milk could be used by the consumer in the selection and/or consumption of the milk. If the consumer has this information at time zero when selecting a milk product for purchase, the consumer could consider when the consumer plans to consume the milk, whether that is on one occasion or multiple occasions. For example, if the consumer planned to consume the milk prior to the point when the curve represented by nutritional substance B crosses the curve represented by nutritional substance A, then the consumer should choose the milk represented by nutritional substance B because it has a higher nutritional value until it crosses the curve represented by nutritional substance A. However, if the consumer expects to consume at least some of the milk at a point in time after the time when the curve represented by nutritional substance B crosses the curve represented by nutritional substance A, then the consumer might choose to select the milk represented by the nutritional substance A, even though milk represented by nutritional substance A has a lower nutritional value than the milk represented by nutritional substance B at an earlier time. This change to a desired nutritional value in a nutritional substance over a change in a condition of the nutritional substance described in
FIG. 2 can be measured and/or controlled throughout nutritionalsubstance supply system 10 inFIG. 1 . This example demonstrates how dynamically generated information regarding a ΔN of a nutritional substance, in this case a change in nutritional value of milk, can be used to understand a rate at which that nutritional value changes or degrades; when that nutritional value expires; and a residual nutritional value of the nutritional substance over a change in a condition of the nutritional substance, in this example a change in time. This ΔN information could further be used to determine a best consumption date for nutritional substance A and B, which could be different from each other depending upon the dynamically generated information generated for each. - In
FIG. 1 ,Creation module 200 can dynamically encode nutritional substances to enable the tracking of changes in nutritional, organoleptic, and/or aesthetic value of the nutritional substance, or ΔN. This dynamic encoding, also referred to herein as a dynamic information identifier, can replace and/or complement existing nutritional substance marking systems such as barcodes, labels, and/or ink markings. This dynamic encoding, or dynamic information identifier, can be used to make nutritional substance information fromcreation module 200 available toinformation module 100 for use bypreservation module 300,transformation module 400,conditioning module 500, and/orconsumption module 600, which includes the ultimate consumer of the nutritional substance. One method of marking the nutritional substance with a dynamic information identifier bycreation module 200, or any other module innutritional supply system 10, could include an electronic tagging system, such as the tagging system manufactured by Kovio of San Jose, Calif., USA. Such thin film chips can be used not only for tracking nutritional substances, by can include components to measure attributes of nutritional substances, and record and transmit such information. Such information may be readable by a reader including a satellite-based system. Such a satellite-based nutritional substance information tracking system could comprise a network of satellites with coverage of some or all the surface of the earth, so as to allow the dynamic nutritional value database ofinformation module 100 real time, or near real time updates about a ΔN of a particular nutritional substance. -
Preservation module 300 includes packers and shippers of nutritional substances. The tracking of changes in nutritional, organoleptic, and/or aesthetic values, or a ΔN, during the preservation period withinpreservation module 300 allows for dynamic expiration dates for nutritional substances. For example, expiration dates for dairy products are currently based generally only on time using assumptions regarding minimal conditions at which dairy products are maintained. This extrapolated expiration date is based on a worst-case scenario for when the product becomes unsafe to consume during the preservation period. In reality, the degradation of dairy products may be significantly less than this worst-case. Ifpreservation module 300 could measure or derive the actual degradation information such as ΔN, an actual expiration date, referred to herein as a dynamic expiration date, can be determined dynamically, and could be significantly later in time than an extrapolated expiration date. This would allow the nutritional substance supply system to dispose of fewer products due to expiration dates. This ability to dynamically generate expiration dates for nutritional substances is of particular significance when nutritional substances contain few or no preservatives. Such products are highly valued throughout nutritionalsubstance supply system 10, including consumers who are willing to pay a premium for nutritional substances with few or no preservatives. - It should be noted that a dynamic expiration date need not be indicated numerically (i.e., as a numerical date) but could be indicated symbolically as by the use of colors—such as green, yellow and red employed on semaphores—or other designations. In those instances, the dynamic expiration date would not be interpreted literally but, rather, as a dynamically-determined advisory date. In practice a dynamic expiration date will be provided for at least one component of a single or multi-component nutritional substance. For multi-component nutritional substances, the dynamic expiration date could be interpreted as a “best” date for consumption for particular components.
- By law, in many localities, food processors such as those in
transformation module 400 are required to provide nutritional substance information regarding their products. Often, this information takes the form of a nutritional table applied to the packaging of the nutritional substance. Currently, the information in this nutritional table is based on averages or minimums for their typical product. Using the nutritional substance information frominformation module 100 provided bycreation module 200,preservation module 300, and/or information from the transformation of the nutritional substance bytransformation module 400, the food processor could include a dynamically generated nutritional value table, also referred to herein as a dynamic nutritional value table, for the actual nutritional substance being supplied. The information in such a dynamic nutritional value table could be used byconditioning module 500 in the preparation of the nutritional substance, and/or used byconsumption module 600, so as to allow the ultimate consumer the ability to select the most desirable nutritional substance which meets their needs, and/or to track information regarding nutritional substances consumed. - Information about changes in nutritional, organoleptic, and/or aesthetic values of nutritional substances, or ΔN, is particularly useful in the
conditioning module 500 of the present invention, as it allows knowing, or estimating, the pre-conditioning state of the nutritional, organoleptic, and/or aesthetic values of the nutritional substance, and allows for estimation of a ΔN associated with proposed conditioning parameters. Theconditioning module 500 can therefore create conditioning parameters, such as by modifying existing or baseline conditioning parameters, to deliver desired nutritional, organoleptic, and/or aesthetic values after conditioning. The pre-conditioning state of the nutritional, organoleptic, and/or aesthetic value of a nutritional substance is not tracked or provided to the consumer by existing conditioners, nor is the ΔN expected from a proposed conditioning tracked or provided to the consumer either before or after conditioning. However, using information provided byinformation module 100 fromcreation module 200,preservation module 300,transformation module 400, and/or information measured or generated byconditioning module 500,conditioning module 500 could provide the consumer with the actual, and/or estimated change in nutritional, organoleptic, and/or aesthetic values of the nutritional substance, or ΔN. Further, consumer feedback and updates regarding observed or measured changes in the nutritional, organoleptic, and/or aesthetic value of nutritional substances, or ΔN, can play a role in updating a dynamic nutritional value database with information about the nutritional substances consumers have purchased and/or prepared for consumption, so that the information is available and useful to others in the nutritional substance supply system, such as through reports reflecting the consumer input or through modification of ΔN. Such information regarding the change to nutritional, organoleptic and/or aesthetic value of the nutritional substance, or ΔN, could be provided not only to the consumer, but could also be provided toinformation module 100 for use bycreation module 200,preservation module 300,transformation module 400, so as to track, and possibly improve nutritional substances throughout the entire nutritionalsubstance supply system 10. - The information regarding nutritional substances provided by
information module 100 toconsumption module 600 can replace or complement existing information sources such as recipe books, food databases like www.epicurious.com, and Epicurious apps. Through the use of specific information regarding a nutritional substance frominformation module 100, consumers can useconsumption module 600 to select nutritional substances according to nutritional, organoleptic, and/or aesthetic values. This will further allow consumers to make informed decisions regarding nutritional substance additives, preservatives, genetic modifications, origins, traceability, and other nutritional substance attributes that may also be tracked through theinformation module 100. This information can be provided byconsumption module 600 through personal computers, laptop computers, tablet computers, and/or smartphones. Software running on these devices can include dedicated computer programs, modules within general programs, and/or smartphone apps. An example of such a smartphone app regarding nutritional substances is the iOS ShopNoGMO from the Institute for Responsible Technology. This iPhone app allows consumers access to information regarding non-genetically modified organisms they may select. Additionally,consumption module 600 may provide information for the consumer to operateconditioning module 500 in such a manner as to optimize nutritional, organoleptic, and/or aesthetic values of a nutritional substance and/or component nutritional substances thereof, according to the consumer's needs or preference or according to target values established by the provider of the nutritional substance, such as the transformer, and/or minimize degradation of, preserve, or improve nutritional, organoleptic, and/or aesthetic value of a nutritional substance and/or component nutritional substances thereof. - Through the use of nutritional substance information available from
information module 100 nutritionalsubstance supply system 10 can track nutritional, organoleptic, and/or aesthetic value. Using this information, nutritional substances travelling through nutritionalsubstance supply system 10 can be dynamically valued and priced according to nutritional, organoleptic, and/or aesthetic values. For example, nutritional substances with longer dynamic expiration dates (longer shelf life) may be more highly valued than nutritional substances with shorter expiration dates. Additionally, nutritional substances with higher nutritional, organoleptic, and/or aesthetic values may be more highly valued, not just by the consumer, but also by each entity within nutritionalsubstance supply system 10. This is because each entity will want to start with a nutritional substance with higher nutritional, organoleptic, and/or aesthetic value before it performs its function and passes the nutritional substance along to the next entity. Therefore, both the starting nutritional, organoleptic, and/or aesthetic value and the ΔN associated with those values are important factors in determining or estimating an actual, or residual, nutritional, organoleptic, and/or aesthetic value of a nutritional substance, and accordingly are important factors in establishing dynamically valued and priced nutritional substances. - During the period of implementation of the present inventions, there will be nutritional substances being marketed including those benefiting from the tracking of dynamic nutritional information such as ΔN, also referred to herein as information-enabled nutritional substances, and nutritional substances which do not benefit from the tracking of dynamic nutritional information such as ΔN, which are not information enabled and are referred to herein as dumb nutritional substances. Information-enabled nutritional substances would be available in virtual internet marketplaces, as well as traditional marketplaces. Because of information provided by information-enabled nutritional substances, entities within the nutritional
substance supply system 10, including consumers, would be able to review and select information-enabled nutritional substances for purchase. It should be expected that, initially, the information-enabled nutritional substances would enjoy a higher market value and price than dumb nutritional substances. However, as information-enabled nutritional substances become more the norm, the cost savings from less waste due to degradation of information-enabled nutritional substances could lead to their price actually becoming less than dumb nutritional substances. - For example, the producer of a ready-to-eat dinner would prefer to use corn of a high nutritional, organoleptic, and/or aesthetic value in the production of its product, the ready-to-eat dinner, so as to produce a premium product of high nutritional, organoleptic, and/or aesthetic value. Depending upon the levels of the nutritional, organoleptic, and/or aesthetic values, the ready-to-eat dinner producer may be able to charge a premium price and/or differentiate its product from that of other producers. When selecting the corn to be used in the ready-to-eat dinner, the producer will seek corn of high nutritional, organoleptic, and/or aesthetic value from
preservation module 300 that meets its requirements for nutritional, organoleptic, and/or aesthetic value. The packager/shipper ofpreservation module 300 would also be able to charge a premium for corn which has high nutritional, organoleptic, and/or aesthetic values. And finally, the packager/shipper ofpreservation module 300 will select corn of high nutritional, organoleptic, and/or aesthetic value from the grower ofcreation module 200, who will also be able to charge a premium for corn of high nutritional, organoleptic, and/or aesthetic values. - The change to nutritional, organoleptic, and/or aesthetic value for a nutritional substance, or ΔN, tracked through nutritional
substance supply system 10 through nutritional substance information frominformation module 100 can be preferably determined from measured information. However, some or all such nutritional substance ΔN information may be derived through measurements of environmental conditions of the nutritional substance as it traveled through nutritionalsubstance supply system 10. Additionally, some or all of the nutritional substance ΔN information can be derived from ΔN data of other nutritional substances which have traveled through nutritionalsubstance supply system 10. Nutritional substance ΔN information can also be derived from laboratory experiments performed on other nutritional substances, which may approximate conditions and/or processes to which the actual nutritional substance has been exposed. Further, consumer feedback and updates regarding observed or measured changes in the nutritional, organoleptic, and/or aesthetic value of nutritional substances can play a role in updating ΔN information. - For example, laboratory experiments can be performed on bananas to determine effect on or change in nutritional, organoleptic, and/or aesthetic value, or ΔN, for a variety of environmental conditions bananas may be exposed to during packaging and shipment in
preservation module 300. Using this experimental data, tables and/or algorithms could be developed which would predict the level of change of nutritional, organoleptic, and/or aesthetic values, or ΔN, for a particular banana based upon information collected regarding the environmental conditions to which the banana was exposed during its time inpreservation module 300. While the ultimate goal for nutritionalsubstance supply system 10 would be the actual measurement of nutritional, organoleptic, and/or aesthetic values to determine ΔN, use of derived nutritional, organoleptic, and/or aesthetic values from experimental data to determine ΔN would allow improved logistics planning because it provides the ability to prospectively estimate changes to nutritional, organoleptic, and/or aesthetic values, or ΔN, and because it allows more accurate tracking of changes to nutritional, organoleptic, and/or aesthetic values, or ΔN, while technology and systems are put in place to allow actual measurement. -
FIG. 3 shows an embodiment oftransformation module 400 of the present invention.Transformation module 400 includestransformer 410, which acts uponnutritional substance 420, andinformation transmission module 430. Whentransformer 410 receives anutritional substance 420,information transmission module 430 also receives, or retrieves information about the particularnutritional substance 420 that is to be transformed. This information can include creation information, preservation information, packaging information, shipping information, and possibly previous transformation information. Afternutritional substance 420 has been transformed bytransformer 410, such information is passed along with the transformednutritional substance 420 by theinformation transmission module 430. - For example, sweet corn that arrives for processing by
transformer 410 has origination information associated with it, including the corn variety, where it was planted, when it was planted, when it was picked, the soil it was grown in, the water used for irrigation, and the fertilizers and pesticides that were used during its growth. There may also be information on nutritional and/or organoleptic and/or aesthetic values of the corn when it was preserved for shipment. This information may be stored in the labeling of the corn. However, it may be stored in a database maintained by the grower, shipper, or the nutritional substances industry, also referred to herein as a dynamic nutritional value database. Such information could be accessed by means of telecommunications systems, such as wireless telecommunication systems. - Additionally, the corn may have information associated with it regarding how it was preserved for shipment from the farm to
transformation module 400. Such information may include historical information on the environment exterior the container it was shipped in, internal conditions of the container and actual information about the corn during the shipment. Additionally, if the preservation system acted upon such information in preserving the corn, information about the preservation measures may also be available. Such information may be stored in the preservation system. However, it may be stored in a database maintained by the grower, shipper, or the nutritional substances industry, also referred to herein as a dynamic nutritional value database. Such information could be accessed by means of telecommunications systems, such as wireless telecommunication systems. - In the example where the
nutritional substance 420 is corn,transformer 410 removes the husk and the silk from the corn. It then separates the kernels from the cob, washes the kernels, and cooks them. Finally,transformer 410 packages the cooked corn in a can and labels the can. The label on the can may contain all the information provided toinformation transmission module 430. Preferably, this information is referenced by a dynamic encode or tag, herein referred to as a dynamic information identifier, which identifies the information regarding the corn in the can that is being transmitted byinformation transmission module 430. - In practice,
information transmission module 430 would receive the information regarding thenutritional substance 420 from a database that is being used to track the corn during its journey from the farm to the consumer. Whentransformer 410 transformsnutritional substance 420,information transmission module 430 retrieves the appropriate information from the database and transmits it to another database. Alternatively, the information retrieved bytransmission module 430 would be transmitted back to the original database, noting that the transformation had occurred. Preferably, the information regarding the corn retrieved bytransmission module 430 would simply be appended with the information that the transformation had occurred. Such databases are individually and collectively referred to herein as a dynamic nutritional value database. - If the
nutritional substance 420 can no longer be tracked by the reference information or dynamic information identifier that accompanied the nutritional substance from the creator, then new reference information or a new dynamic information identifier may be created. For example, if the corn is combined with lima beans in thetransformer 410, to make succotash, then the information for each may be combined and assigned a new reference number or a new dynamic information identifier. Preferably, a new entry is created in the dynamic nutritional value database, with references to the information related to the corn and the information related to the lima beans. -
FIG. 4 shows an embodiment oftransformation module 400 of the present invention.Transformation module 400 includestransformer 410, which acts uponnutritional substance 420, andinformation transmission module 430. Whentransformer 410 receives anutritional substance 420,information transmission module 430 also receives, or retrieves information about the particularnutritional substance 420 that is to be transformed. This information can include creation information, packaging information, shipping information, and possibly previous transformation information. Afternutritional substance 420 has been transformed bytransformer 410, such information is passed along with the transformednutritional substance 420 by theinformation transmission module 430, along with specific information relating to the transformation done bytransformer 410. - For example, sweet corn that arrives for processing by
transformer 410 has origination information associated with it, including the corn variety, where it was planted, when it was planted, when it was picked, the soil it was grown in, the water used for irrigation, and the fertilizers and pesticides that were used during its growth. There may also be information on nutritional, organoleptic and aesthetic values of the corn when it was preserved for shipment. This information may be stored in the labeling of the corn. However, it may be stored in a dynamic nutritional value database maintained by the grower, shipper, or the nutritional substances industry. Such information could be accessed by telecommunications systems, such as wireless telecommunication systems. - Additionally, the corn may have information associated with it regarding how it was preserved for shipment from the farm to
transformation module 400. Such information may include historical information on the environment exterior the container it was shipped in, internal conditions of the container and actual information about the corn during the shipment. Additionally, if the preservation system acted upon such information in preserving the corn, information about the preservation measures may also be available. Such information may be stored in the preservation system. However, it may be stored in a dynamic nutritional value database maintained by the grower, shipper, or the nutritional substances industry. Such information could be accessed by means of telecommunications systems, such as wireless telecommunication systems. - In the example where the
nutritional substance 420 is corn,transformer 410 removes the husk and the silk from the corn. It then separates the kernels from the cob, washes the kernels, and cooks them. Finally,transformer 410 packages the cooked corn in a can and labels the can. - During this transformation of the
nutritional substance 420 bytransformer 410, information about the transformation can be captured bytransformer 410 and sent toinformation transmission module 430. This information can include how the transformation was accomplished; including information on the transformer used, the recipe implemented bytransformer 410, and the settings fortransformer 410 when the transformation occurred. Additionally, any information created during the transformation bytransformer 410 can be sent to theinformation transmission module 430. This could include measured information, such as the actual cooking temperature, length of time of each of the steps, or weight or volume measurements. Additionally, this information could include measured aesthetic, organoleptic and nutritional values. - The label on the can may contain all the information provided to
information transmission module 430. Preferably, this information is referenced by a dynamic information identifier which identifies the information regarding the corn in the can that is being transmitted byinformation transmission module 430. - In practice,
information transmission module 430 would receive the information regarding thenutritional substance 420 from a database that is being used to track the corn during its journey from the farm to the consumer. Whentransformer 410 transformsnutritional substance 420,information transmission module 430 retrieves the appropriate information from the database, appends it with the information fromtransformer 410 regarding the transformation, and transmits it to another database. Alternatively, such information would be transmitted back to the original database, including the transformation information. Preferably, the information regarding the corn would simply be appended with the information fromtransformer 410 about the transformation. Such databases are individually and collectively referred to herein as a dynamic nutritional value database. - If the
nutritional substance 420 can no longer be tracked by the reference information or a dynamic information identifier that accompanied the nutritional substance from the creator, then new reference information or a new dynamic information identifier may be created. For example, if the corn is combined with lima beans in thetransformer 410, to make succotash, then the information for each may be combined and assigned a new reference number or a new dynamic information identifier. Preferably, a new entry is created in the dynamic nutritional value database, with references to the information related to the corn and the information related to the lima beans. -
FIG. 5 shows an embodiment oftransformation module 400 of the present invention.Transformation module 400 includestransformer 410, which acts uponnutritional substance 420, andinformation transmission module 430. Whentransformer 410 receives anutritional substance 420,information transmission module 430 also receives, or retrieves information about the particularnutritional substance 420 that is to be transformed. This information can include creation information, packaging information, shipping information, and possibly previous transformation information. This information is used bytransformer 410 to dynamically modify the transformation, the process referred to herein as adaptive transformation. Afternutritional substance 420 has been transformed bytransformer 410, such information is passed along with the transformednutritional substance 420 by theinformation transmission module 430, along with specific information relating to the adaptive transformation done bytransformer 410. - For example, sweet corn that arrives for processing by
transformer 410 has origination information associated with it, including the corn variety, where it was planted, when it was planted, when it was picked, the soil it was grown in, the water used for irrigation, and the fertilizers and pesticides that were used during its growth. There may also be source information on nutritional, organoleptic and aesthetic values of the corn when it was preserved for shipment. This information may be stored in the labeling of the corn. However, it may be stored in a dynamic nutritional value database maintained by the grower, shipper, or the nutritional substances industry. Such information could be accessed by telecommunications systems, such as wireless telecommunication systems. - Additionally, the corn may have information associated with it regarding how it was preserved for shipment from the farm to
transformation module 400. Such information may include historical information on the environment exterior the container it was shipped in, internal conditions of the container and actual information about the corn during the shipment. Additionally, if the preservation system acted upon such information in preserving the corn, information about the preservation measures may also be available. Such information may be stored in the preservation system. However, it may be stored in a database maintained by the grower, shipper, or the nutritional substances industry, also referred to herein as a dynamic nutritional value database. Such information could be accessed by means of telecommunications systems, such as wireless telecommunication systems. - Any, or all, of this information can be provided to
transformer 410 byinformation transmission module 430.Transformer 410 can dynamically modify its transformation ofnutritional substance 420 in response to such information to adaptively transform the nutritional substance in order to preserver or improve or minimize the degradation of the nutritional, organoleptic and/or aesthetic values ofnutritional substance 420. - In the example where the
nutritional substance 420 is corn,transformer 410 removes the husk and the silk from the corn. It then separates the kernels from the cob, washes the kernels, and cooks them. In response to the information provided byinformation transmission module 430, transformer can dynamically modify the cooking temperature and time. For example, iftransformer 410 receives information that indicates that the corn is low in certain desirable nutrients, it might lower the cooking temperature and time to preserve those nutrients, thus achieving a more desirable nutritional value related to those specific nutrients in the transformed nutritional substance. However, iftransformer 410 receives information that indicates that the corn is high in tough starches, it might raise the cooking temperature and time to soften the corn, thus achieving a more desirable organoleptic value related to the texture of the transformed nutritional substance. Finally,transformer 410 packages the cooked corn in a can and labels the can. - Additionally,
transformer 410 can modify its transformation of the nutritional substance in response to measured attributes of the particularnutritional substance 420 being transformed. For example,transformer 410 can measure the color of the corn to be processed, and in response make adjustment to the transformation to preserve or enhance the color of the transformed corn, thus achieving a more desirable aesthetic value related to the appearance of the transformed nutritional substance. - During this adaptive transformation of the
nutritional substance 420 bytransformer 410, information about the transformation can be captured bytransformer 410 and sent toinformation transmission module 430. This information can include how the transformation was accomplished; including information on any dynamic transformation modifications in response to information about the particular nutritional substance to be transformed, the recipe implemented bytransformer 410, and the settings fortransformer 410 when the transformation occurred. Additionally, any information created during the transformation bytransformer 410 can be sent to theinformation transmission module 430. This could include measured information, such as the actual cooking temperature, length of time of each of the steps. Additionally, this information could include measured organoleptic, aesthetic, and nutritional information, weight, volume, and physical dimension. - The label on the packaging may contain all the information provided to
information transmission module 430. Preferably, this information is referenced by a dynamic information identifier which identifies the information regarding the nutritional substance in the packaging that is being transmitted byinformation transmission module 430. - In practice,
information transmission module 430 would utilize a dynamic information identifier provided with the nutritional substance to retrieve and receive the information regarding thenutritional substance 420 from a database that is being used to track the corn during its journey from the farm to the consumer. Whentransformer 410 transformsnutritional substance 420,information transmission module 430 retrieves the appropriate information from the database, appends it with the information fromtransformer 410 regarding the transformation, and transmits it to another database. Alternatively, such information would be transmitted back to the original database, including the transformation information. Preferably, the information regarding the corn would simply be appended with the information fromtransformer 410 about the transformation. Such databases are individually and collectively referred to herein as a dynamic nutritional value database - If the
nutritional substance 420 can no longer be tracked by the reference information or dynamic information identifier that accompanied the nutritional substance from the creator, then new reference information or a new dynamic information identifier may be created. For example, if the corn is combined with lima beans in thetransformer 410, to make succotash, then the information for each may be combined and assigned a new reference number or a new dynamic information identifier. Preferably, a new entry is created in the dynamic nutritional value database, with references to the information related to the corn and the information related to the lima beans. -
FIG. 6 shows an embodiment of aconditioning module 500 for conditioning nutritional substances transformed according to the present invention.Conditioner system 510 receivesnutritional substance 420 for conditioning before it is delivered toconsumer 540.Controller 530 is operably connected toconditioner system 510. In fact,controller 530 may be integrated withinconditioner system 510, although inFIG. 6 , it is shown as a separate device. Whenconditioner system 510 receivesnutritional substance 420 for conditioning,nutritional substance reader 590 either receives information regardingnutritional substance 420 and provides it tocontroller 530, which is the case if thenutritional substance 420 contains a label which includes the information aboutnutritional substance 420, and/or thenutritional substance reader 590 receives reference information, such as a dynamic information identifier, and provides it tocontroller 530, allowing retrieval of the information aboutnutritional substance 420 fromnutritional substance database 550, which is the case when the nutritional substance is associated with, or provided with, a dynamic information identifier. In the case wherenutritional substance 420 contains a label which includes information aboutnutritional substance 420,nutritional substance reader 590 reads this information, provides it tocontroller 530 and makes it available toconsumer 540 by means ofconsumer interface 560. - In an embodiment of the present invention,
conditioner system 510 comprisesconditioner 570.Conditioner 570 is a conditioning apparatus which can perform a number of operations onnutritional substance 420, separately and/or at the same time. For example,conditioner 570 could be a combination microwave oven, convection oven, grill, and conventional oven.Controller 530 could operateconditioner 570 to execute a sequence of conditioning cycles onnutritional substance 420 to complete its conditioning. - For example, if
nutritional substance 420 is a whole frozen turkey to be prepared for dinner,consumer 540 would place the turkey inconditioner 570, the combination cooking unit suggested above.Controller 530 would receive and/or create a protocol of conditioning cycles. Such a protocol could be read bynutritional substance reader 590 from a label onnutritional substance 420. Alternately, a protocol of conditioning cycles could be obtained fromnutritional substance database 550 through reference information such as a dynamic information identifier, obtained bynutritional substance reader 590 fromnutritional substance 420. For example, a label on the turkey could be read bynutritional substance reader 590, providing reference information for the turkey, such as a dynamic information identifier, whichcontroller 530 uses to obtain a conditioning protocol for the turkey fromnutritional substance database 550. - In a preferred embodiment, the conditioning protocol or parameters obtained are intended to optimize nutritional, organoleptic, or aesthetic values chosen and targeted by the transformer of the nutritional substance during transformation. The transformer of such a nutritional substance has the ability to market nutritional substances that will consistently attain nutritional, organoleptic, or aesthetic values that provide high perceived value to consumers. It is a further advantage to the consumers that such a nutritional substance requires only the ability to follow a simple conditioning protocol to achieve optimal results, rather that requiring high skill levels, professional or highly specialized cooking equipment, and a large investment of time.
- An example of such a transformed nutritional substance could be a turkey and dressing entrée. The primary components of this nutritional substance are the fresh-refrigerated turkey or fresh-frozen turkey, preferably frozen by a CAS (Cells Alive System), and the components for the dressing. Each component has its own component packaging, and can further include sub-components which have their own sub-component packaging. The outer packaging for this nutritional substance further includes a disposable roasting pan with built in drip tray, roasting pan cover, and environmentally friendly basting brush and oven mitts. The components for this entrée include individually packaged fresh-refrigerated or fresh-frozen turkey, sea salt, cracked pepper, lemon juice, canola oil, white wine, bread crumbs, fresh butter, whole fresh onion, and fresh garlic clove. Components included for preparation include disposable roasting pan with built in drip tray, roasting pan cover, and environmentally friendly basting brush and oven mitts. The nutritional substance is provided to the consumer with a dynamic information identifier. The dynamic information identifier enables the consumer to prepare a turkey entrée that consistently achieves optimal nutritional, organoleptic, or aesthetic values, as chosen and targeted by the transformer during transformation.
- The transformer of this turkey entrée has chosen flavor and texture of both the turkey and the dressing being transformed as the target post conditioning organoleptic property. In this case, the chosen target dictates many criteria regarding selection of component ingredients. As will become apparent, it also dictates many specific requirements for packaging and preservation. Finally, the present invention can only be accomplished with the benefit of ΔN information, in this example, changes in organoleptic value of the nutritional substance occurring before transformation and at transformation and during post transformation preservation and changes in organoleptic value estimated to occur from proposed conditioning.
- An example of a transformation protocol for such a turkey and dressing entrée will be illustrative of the present invention, but is only one of many ways that the present invention may be practiced. As explained above, the transformer in this example has chosen flavor and texture of both the turkey and dressing in this entrée. The transformer of such a nutritional substance seeks the marketplace advantage of providing a product that is simple to prepare and consistently delivers optimal flavor and texture.
- Component selection, packaging, and providing the transformed nutritional substance with a dynamic information identifier unique to the nutritional substance will enable the transformer to accomplish the goal of providing a turkey and dressing entrée with optimal organoleptic values for flavor and texture. The selection of the turkey may include; fresh-refrigerated turkeys only, or might include fresh-frozen turkey, preferably frozen by CAS; specific preservation requirements; transformation within a certain time from slaughter; free range turkeys; organic turkeys; toms or hens; minimum and maximum weight requirements; feed requirements; breed requirements, region requirements; fat content requirements, and others. A system that provides source and ΔN information for nutritional substances on their journey through the nutritional substance supply system is of great advantage. Similarly, selection of other components is important, and knowing source and ΔN information is a great advantage. For example, the sea salt is from the North Sea; the cracked pepper is from Italia; and the white wine, butter, canola oil, bread crumbs, garlic, and onions benefit from similar source information, as well as ΔN information. Packaging the components of the turkey and dressing entrée individually is a further advantage in the present invention, as the components will best maintain their individual nutritional, organoleptic, and aesthetic values, and the source and ΔN information for each can be utilized at the time the components are combined for conditioning.
- Referring to
FIG. 6 , an example of a conditioning protocol for such a turkey and dressing entrée will be illustrative of the present invention, but is only one of many ways that the present invention may be practiced. In this example, the transformer has chosen to optimize flavor and texture of the turkey and dressing entrée, and has sourced a fresh-refrigerated turkey, as this type of meal is intended for a traditional holiday gathering in the United States and the transformer understands the difficulty of preparing this type of entrée without the benefit of dynamic nutritional substance information. -
Conditioner module 500 could operate in the following fashion.Nutritional substance reader 590 obtains the dynamic information identifier fromnutritional substance 420 and provides it tocontroller 530.Controller 530 uses the dynamic information identifier to retrieve a conditioning protocol fromnutritional substance database 550. This protocol is dynamically generated, as it is generated responsive to source and dynamic information about the nutritional substance corresponding to the dynamic information identifier. In this case, the initial weight of the turkey is known, and the dynamic information about moisture loss can be estimated from preservation data, or may be available through a direct weight measurement made by theconditioner 570. In either case, a protocol is created responsive to the measured or estimated moisture loss regarding cooking time and temperature for aconditioner 570, which in this case could be a conventional oven. Further, a basting protocol is generated responsive to the moisture loss data, ideally instructing the time or frequency of basting. Still further, a protocol is generated for the preparation of the dressing responsive to this data. This is because the weight and moisture content in the turkey influences the conditioned dressing, as the dressing is cooked inside of the turkey while the turkey is conditioned. Further, the moisture content, butter content, and white wine content in the dressing will influence the moisture content in the conditioned turkey. Therefore, the protocol retrieved additionally instructs the quantity of bread crumbs, white wine, butter, onion, and garlic to be combined when preparing the dressing. The protocol further instructs the time required for the turkey to reach room temperature, the order or time of application of various components such as lemon juice, sea salt, and canola oil, and when to prepare the dressing and when to place dressing inside the turkey. Thecontroller 530 instructsconditioner 570 to operate as a convection oven to cook the turkey, according to the conditioning protocol obtained for the turkey fromnutritional substance database 550, for a sufficient length of time and at an appropriate temperature so as to ensure that the turkey attains the targeted nutritional, organoleptic or aesthetic properties of both the turkey and the dressing. In this case, the target properties were flavor and texture, for example, to assure that the turkey meat is moist, tender, and flavorful and that the dressing is flavorful, not too dry, not too wet, and not too oily. - Alternatively, the conditioning protocol obtained for the turkey from
nutritional substance database 550 may depend upon a direct measurement of the internal temperature of the turkey, or a combination of measured temperature and time. Alternatively, the conditioning protocol obtained for the turkey fromnutritional substance database 550 may depend upon a direct measurement by an optical sensor of external aesthetic values of the turkey such as color, change of color, texture, or change of texture. Alternatively, the conditioning protocol obtained for the turkey fromnutritional substance database 550 may depend upon a direct measurement by an infrared sensor of the surface temperature of the turkey, or a combination time, measured aesthetic values, or measured surface temperature. - Alternately,
conditioner system 510 could be composed of a plurality ofconditioners 570. While an automated system for moving a nutritional substance between such conditioners would be optimal,conditioner system 510 could be operated manually byconsumer 540 from instructions provided by thecontroller 530 toconsumer interface 560. In this embodiment,controller 530 could provideconsumer 540 with instructions as to where to move the turkey after each step in a conditioning protocol. For example, if in this example the transformer had sourced a fresh-frozen turkey and the turkey was provided to the consumer frozen,controller 530 could instructconsumer 540 throughconsumer interface 560 to first place the frozen turkey inconditioner 570, a microwave oven.Controller 530 instructs the microwave oven to defrost the turkey based on information possibly provided bynutritional substance database 550 or possiblyconditioner 570 or possiblynutritional substance reader 590. Upon completion of defrosting by the microwave oven,controller 530 could instructconsumer 540 throughinterface 560 to prepare dressing, remove turkey from microwave oven, place dressing in defrosted turkey, place lemon juice, sea salt, cracked pepper, and canola oil on turkey, place turkey in roasting pan, cover roasting pan, and move the turkey to anotherconditioner 570, a convection oven.Controller 530 would operate the convection oven to cook the turkey for a sufficient length of time at an appropriate temperature so as to ensure that the target optimal flavor and texture of the turkey and dressing entrée is attained. During conditioning in the convection oven,controller 530 could instructconsumer 540 throughinterface 560 as to when to baste the turkey. Finally, following the cooking cycle in the convection oven,controller 530 could instructconsumer 540 throughconsumer interface 560 to move the turkey from the convection oven to anotherconditioner 570, a grill.Controller 530 would operate the grill so as to grill the turkey for a sufficient period of time to create a desirable golden and crispy skin. - Alternately,
conditioner system 510 could be composed of a plurality ofconditioners 570; and a consumer 540 (which would include any individuals preparing the turkey for consumption), fulfilling additional conditioner rolls, as will be explained. While an automated system for moving a nutritional substance between such conditioners would be optimal,conditioner system 510 could be operated manually byconsumer 540 from instructions provided by aconsumer interface 560, which in this case could be a handheld device such as a cellular phone, tablet computer, PDA, or any other device useful for communicating withnutritional substance database 550 and theconsumer 540. The handheld device additionally fulfills the roll ofnutritional substance reader 590 andcontroller 530. For example, theconsumer 540 can utilize a camera function of the handheld device to read a barcode, or QR code, on or associated with the turkey and dressing entrée, wherein the code provides a dynamic information identifier. The handheld device can then use the dynamic information identifier to retrieve information regarding the turkey and dressing entrée fromnutritional substance database 550. In this example,consumer 540 utilizes the handheld device to read a barcode (or any other readable code) on the turkey and dressing entrée, the barcode containing a dynamic information identifier associated with information regarding the turkey and dressing entrée within thenutritional substance database 550. Theconsumer 540 uses the handheld device to retrieve and review a conditioning protocol fromnutritional substance database 550, and is accordingly instructed as to where to move the turkey for each step in the conditioning protocol and further instructed on how and when to prepare the dressing, how and when to season the turkey and place dressing inside, and the conditioning parameters required for each step of the conditioning protocol. In this example,consumer 540 retrieves and reviews a conditioning protocol fromnutritional substance database 550 using the handheld device and is instructed to first place the frozen turkey inconditioner 570, a microwave oven, and further instructed on conditioning parameters for the microwave oven to defrost the turkey.Consumer 540 is instructed that upon completion of defrosting by the microwave oven, the turkey is to be removed, dressing is to be prepared and placed inside of turkey, and sea salt, cracked pepper, and canola oil is to be placed on turkey, and turkey is to be place in roasting pan and covered.Consumer 540 is further instructed that the turkey is to be moved to anotherconditioner 570, a convection oven.Consumer 540 is further instructed on conditioning parameters for the convection oven to cook the turkey for a sufficient length of time and at an appropriate temperature so as to ensure that the turkey reaches the targeted optimal flavor and texture properties. During conditioning in the convection oven,controller 530 instructsconsumer 540 throughinterface 560 as to when to baste the turkey. Finally,consumer 540 is instructed that upon completion of cooking by the convection oven, the turkey is to be moved to anotherconditioner 570, a grill, and further instructed on conditioning parameters for the grill so as to grill the turkey for a sufficient period of time to create a desirable golden and crispy skin. - In the case where
conditioner system 510 is a plurality ofconditioners 570, it would also be possible forcontroller 530 to manageconditioners 570 withinconditioner system 510 so as to produce a complete meal. For example,controller 530 could select conditioning protocols which would maximize the use of eachconditioner 570. For example, in a meal comprising a turkey and dressing entrée, wherein the turkey is provided to the consumer frozen, home baked bread, and acorn squash,controller 530 could stage and operate the microwave oven, convection oven, and grill to minimize preparation time for the meal by determining which item should be cooked in whichconditioner 570, in which order, to maximize usage of eachconditioner 570 inconditioning system 510. In this example, while the turkey is being defrosted in the microwave oven,controller 530 could instructconsumer 540 throughinterface 560 to place the bread dough in the convection oven and the acorn squash on the grill. Following the defrosting of the turkey,controller 530 instructs consumer to prepare dressing and place dressing inside of turkey, and instructs that sea salt, cracked pepper, and canola oil is to be placed on turkey, and instructs that turkey is to be place in roasting pan and covered when the turkey is moved to the convection oven when it finished baking the bread. Thecontroller 530 could further instruct that the bread could be moved to the grill for browning, and the acorn squash could be moved to microwave oven to keep warm, until the entire meal is ready. The bread dough and acorn squash could be part of the turkey and dressing entrée or obtained separately. - In another example, if
nutritional substance 420 is a ready-to-eat frozen dinner which needs to be heated byconditioner system 510,nutritional substance reader 590 would read a label on nutritional substance 520 thereby receiving information regardingnutritional substance 420, and then provide the information tocontroller 530. This information could include creation information as to the creation of the various components which constitute the ready-to-eat dinner. This information could include information about where and how the corn in the ready-to-eat dinner was grown, including the corn seed used, where it was planted, how it was planted, how it was irrigated, when it was picked, and information on fertilizers and pesticides used during its growth. Additionally, this information could include the cattle lineage, health, immunization, dietary supplements that were fed to the cattle that was slaughtered to obtain the beef in the ready-to-eat dinner. - The information from a label on
nutritional substance 420 could also include information on how the components were preserved for shipment from the farm or slaughterhouse on their path to the nutritional substance transformer who prepared the ready-to-eat dinner. Additional information could include how the nutritional substance transformer transformed the components into the ready-to-eat dinner, such as recipe used, additives to the dinner, and actual measured conditions during the transformation into the ready-to-eat dinner. Additional information may also be present regarding the preservation of the ready-to-eat dinner after transformation. - While such information could be stored on a label located on the packaging for
nutritional substance 420 so as to be read bynutritional substance reader 590, provided tocontroller 530, and provided toconsumer interface 560 for display toconsumer 540, preferably, the label on the nutritional substance package includes reference information, such as a dynamic information identifier, which is read bynutritional substance reader 590 and provided tocontroller 530 that allowscontroller 530 to retrieve the information aboutnutritional substance 420 fromnutritional substance database 550. Further, linking consumer feedback and updates regarding observed or measured changes in the nutritional, organoleptic, and/or aesthetic values of nutritional substances would provide for virtually real time updates of ΔN information from the actual consumer. -
Nutritional substance database 550 could be a database maintained by the transformer ofnutritional substance 420 for access by consumers of suchnutritional substance 420 to track or estimate changes in the nutritional, organoleptic, and/or aesthetic values of those nutritional substances, as well as any other information about the nutritional substance that can be tracked, including but not limited to the examples previously described. However, preferably,nutritional substance database 550 is a database withininformation module 100 that is maintained by the nutritional substance industry for all such information regarding nutritional substances grown, raised, preserved, transformed, conditioned and consumed byconsumer 540, in which case it is the database contained withininformation module 100 and also referred to herein as a dynamic nutritional value database. - In an alternate embodiment of the present invention,
controller 530, in addition to providing information regardingnutritional substance 420 toconsumer 540, also receives information fromconditioner system 510 on hownutritional substance 420 was conditioned. Additionally,conditioner system 510 may also measure or sense information aboutnutritional substance 420 during its conditioning byconditioner system 510, and provide such information tocontroller 530, so that such information could also be provided toconsumer 540, viaconsumer interface 560. - In a preferred embodiment of the present invention,
controller 530 organizes and correlates the information it receives regardingnutritional substance 420 from the various sources of such information, includingnutritional substance database 550 andconditioner system 510, and presents such information throughconsumer interface 560 toconsumer 540 in a manner useful toconsumer 540. For example, such information may be provided in a manner that assistsconsumer 540 in understanding hownutritional substance 420 meets consumer's 540 nutritional needs before or after conditioning, or how it meets the consumer's needs based on proposed conditioning parameters intended to optimize particular nutritional, organoleptic, or aesthetic values targeted by the transformer of the nutritional substance at the time of transformation, or targeted by the consumer at the time of conditioning. It could organize information regardingnutritional substance 420 to track consumer's 540 weight loss program.Controller 530 could have access to, or maintain,information regarding consumer 540, so as to track and assistconsumer 540 in meeting their specific nutritional needs. - In another embodiment of the present
invention conditioner system 510 could be a plurality of conditioner devices which can be selectively operated bycontroller 530 to preparenutritional substance 420.Conditioner system 510 can be either a single conditioning device, such as a microwave oven, conventional oven, toaster, blender, steamer, stovetop, or human cook.Conditioner system 510 may be a plurality ofconditioners 570. In the case where a plurality ofconditioners 570 compriseconditioner system 510,nutritional substance 420 may be manually or automatically transferred betweenconditioners 570 for eventual transfer toconsumer 540. -
Nutritional substance reader 590 may be an automatic reader such as a barcode reader or RFID sensor which receives information fromnutritional substance 420 or a reference code fromnutritional substance 420, such as a dynamic information identifier, and provides this information tocontroller 530.Nutritional substance reader 590 might also be a manual entry system where the reference code, such as a dynamic information identifier associated with, or provided with thenutritional substance 420 is manually entered intonutritional substance reader 590 forcontroller 530. -
Nutritional substance database 550 could be a flat database, relational database or, preferably, a multi-dimensional database.Nutritional substance database 550 could be local but, preferably, it would be located remotely, such as on the internet, and accessed via a telecommunication system, such as a wireless telecommunication system.Controller 530 can be implemented using a computing device, such as a micro-controller, micro-processor, personal computer, or tablet computer.Controller 530 could be integrated to includenutritional substance reader 590,consumer interface 560, and/ornutritional substance database 550. Additionally,controller 530 may be integrated inconditioner system 510, including integration intoconditioner 570. - It is important to note that while
FIGS. 6-7 of various embodiments of the present invention shownutritional substance database 550 as part of theconditioner module 500, they are in no way limited to this interpretation. It is understood that this convention is only one way of illustrating the inventions described herein, and it is further understood that this is in no way limiting to the scope of the present invention. The same is understood forrecipe database 555,consumer database 580, and nutritional substance industry database 558. For example, any ofnutritional substance database 550,recipe database 555,consumer database 580, and nutritional substance industry database 558 can be contained withininformation module 100 or withinconditioner module 500. -
Consumer interface 560 can be implemented as a display device mounted oncontroller 530,conditioner system 510, orconditioner 570. However,consumer interface 560 is preferably a tablet computer, personal computer, personal assistant, or smart phone, running appropriate software, such as an app. - While
conditioner module 500 can be located in the consumer's home,conditioner module 500 may be located at a restaurant or other food service establishment for use in preparingnutritional substances 420 for consumers who patronize such an establishment. Additionally,conditioner module 500 could be located at a nutritional substance seller such as a grocery store or health food store for preparation ofnutritional substances 420 purchased by consumers at such an establishment. It could be foreseen thatconditioner modules 500 could become standalone businesses where consumers select nutritional substances for preparation at the establishment or removal from the establishment for consumption elsewhere. - Additionally,
controller 530 uses nutritional substance information retrieved bynutritional substance reader 590 fromnutritional substance 420, or retrieved fromnutritional substance database 550 using reference information obtained bynutritional substance reader 590 fromnutritional substance 420, to dynamically modify the operation ofconditioner system 510 to maintain nutritional, organoleptic, and aesthetic properties ofnutritional substance 420. For example, if thenutritional substance 420 is a ready-to-eat dinner,controller 530 could modify the instructions toconditioner system 530 in response to source and ΔN information regarding corn used in the ready-to-eat dinner such that a temperature and cooking duration can be modified to affect the nutritional, organoleptic, or aesthetic properties of the corn. Further, the modified conditioning parameters may be directly intended to optimize a nutritional, organoleptic, or aesthetic property of the corn targeted by the transformer of the ready-to-eat dinner during transformation. - In an embodiment of the present invention, the label on
nutritional substance 420 could contain the conditioning instructions fornutritional substance 420, or a reference, such as a dynamic information identifier, to such conditioning instructions innutritional substance database 550. In operation, this would allowcontroller 530 to obtain information aboutnutritional substance 420 on how to dynamically operateconditioner system 510 to conditionnutritional substance 420, without consumer intervention. Additionally, conditioning instructions fornutritional substance 420 could be provided for a variety ofdifferent conditioner systems 510, orconditioners 570, and controller could select the proper conditioning instructions. The dynamic operation ofconditioner system 510 may be directly intended to optimize a nutritional, organoleptic, or aesthetic property of the nutritional substance targeted by the transformer of the nutritional substance during transformation. - In a further embodiment of the present invention,
nutritional substance reader 590 orconditioner system 510 measures or senses information about the current state ofnutritional substance 420 and provides such information tocontroller 530 to allowcontroller 530 to dynamically modify operation ofconditioner system 510. - In an additional embodiment of the present invention,
consumer 540 provides information regarding their needs or desires with regard to thenutritional substance 420 toconsumer interface 560.Consumer interface 560 provides this information tocontroller 530 so as to allowcontroller 530 to dynamically modify conditioning parameters used byconditioner system 510 in the conditioning ofnutritional substance 420, or to request fromnutritional substance database 550 dynamically modified conditioning parameters to be used byconditioner system 510 in the conditioning ofnutritional substance 420. Consumer's 540 needs or desires could include nutritional parameters, organoleptic parameters, or aesthetic parameters. For example,consumer 540 may have needs for certain nutrients which are present innutritional substance 420 prior to conditioning.Controller 530 could modify operation ofconditioner system 510 so as to preserve such nutrients. For example,conditioner system 510 can cook the nutritional substance at a lower temperature or for a shorter duration so as to minimize nutrient loss. The consumer's 540 needs or desires may be related to particular nutritional, organoleptic, or aesthetic values, and may additionally be related to other nutritional substance attributes that are retrievable through thenutritional substance database 550 using a dynamic information identifier, such as nutritional substance additives, preservatives, genetic modifications, origins, and traceability. Further, the consumer's needs or desires could be part of a consumer profile provided to thecontroller 530 through theconsumer interface 560 or otherwise available tocontroller 530. The consumer's needs or desires could be exclusionary in nature, for example no products of animal origin, no peanuts or peanut-derived products, no farm raised products, no pork products, or no imported products. In these cases, thenutritional substance database 550 could provide information that would prevent the consumer from preparing or consuming products that the consumer cannot, should not, or prefers not to consume. - The consumer's 540 nutritional, organoleptic or aesthetic desires could include how rare or well done they prefer a particular nutritional substance to be prepared. For example,
consumer 540 may prefer his vegetables to be crisp or pasta to be prepared al dente. With such information provided byconsumer 540 tocontroller 530 throughconsumer interface 560,controller 530 can dynamically modify operation ofconditioner system 510 responsive to the consumer information and provide a nutritional substance according to the consumer's desires. - In an embodiment of the present invention,
controller 530 receives information regarding the history ofnutritional substance 420, current information onnutritional substance 420, andconsumer 540 needs or desires, and dynamically modifies operation ofconditioner system 510 responsive to the information so as to provide a nutritional substance according to the consumer's needs or desires. For example, ifnutritional substance 420 is a steak,controller 530 would receive reference information, such as a dynamic information identifier, regarding the steak,nutritional substance 420, fromnutritional substance reader 590.Controller 530 would use this reference information to obtain information about the steak fromnutritional substance database 550.Controller 530 could also receive current information about the steak fromnutritional substance reader 590 orconditioner 510. Additionally,controller 530 could receiveconsumer 540 preferences fromconsumer interface 560. Finally,controller 530 could receive information fromconditioner system 510 during the conditioning of the steak,nutritional substance 420. Using some or all of such information,controller 530 would dynamically modify the cooking of the steak to preserve, optimize, or enhance organoleptic, nutritional, and aesthetic properties to meet the consumer's 540 needs. For example, the steak could be cooked slowly to preserve iron levels within the meat, and also cooked to well-done to meet consumer's 540 taste. -
Conditioner system 510 can prepare a nutritional substance forconsumer 540 which contains a plurality ofnutritional substances 420.Conditioner module 500 includesrecipe database 555 which is operably connected tocontroller 530.Recipe database 555 can be part ofnutritional substance database 550, or it can be a stand-alone database. Whilerecipe database 555 can be located locally, it is preferably accessible tomany conditioner modules 500 through a telecommunications system such as the internet, including wireless telecommunications systems. -
Controller 530 is also preferably connected toconsumer database 580.Consumer database 580 may be additionally connected toconsumer interface 560.Consumer database 580 could include consumer's 540 nutritional, organoleptic and aesthetic needs and preferences, and could be in the form of a consumer profile custom tailored to an individual consumer or selected from a menu of consumer profiles.Consumer database 580 may receiveinput regarding consumer 540 fromconsumer 540, but could also include information supplied by consumer's 540 medical records, exercise records for the consumer's gym, and other information sources.Consumer database 580 could include information regarding regulatory actions and/or manufacturer warnings or recalls of nutritional substances which may be obtained, have been obtained, or may be prepared or consumed by the consumer. Additionally,consumer database 580 could include information regarding consumer's 540 preferences provided bycontroller 530 for previousnutritional substance 420 conditionings. Additionally,consumer database 580 could include consumer preferences from external sources such as restaurants and grocery stores whereconsumer 540 purchasesnutritional substances 420. Finally,consumer database 580 could include information fromconsumer module 600, inFIG. 1 . -
Consumer database 580 could be a local database maintained bycontroller 530 orconsumer interface 560. Preferably,consumer database 580 is part of a nutritional substance industry database containing such information regarding a plurality ofconsumers 540. - For example,
controller 530 can operate to select the necessary ingredients,nutritional substance 420, to prepare a meal. In this case,nutritional substance 420 could be a plurality ofnutritional substances 420. In operation,consumer 540 could select a dinner menu usingconsumer interface 560. Additionally,consumer 540 could select a specific recipe fromrecipe database 555 or could select a recipe source withindatabase 555, such as low salt meals or recipes by a certain well-known chef.Controller 530 could prepare a shopping list forconsumer 540 throughconsumer interface 560. Alternatively,controller 530 could transmit a shopping list to anutritional substance 420 supplier such as a grocery store, soconsumer 540 could pick up such items already selected or could have such items delivered. - Alternatively, if instructed by
consumer 540 to utilize nutritional substances on hand, which have been logged intocontroller 530 throughnutritional substance reader 590,controller 530 could modify or suggest a recipe that used onlynutritional substances 420 available toconditioner module 500. For example, ifconsumer 540 instructsconditioner module 500 throughconditioner interface 560 thatconsumer 540 would like Italian food in the style of a well-known Italian chef,controller 530 would utilize information in its various databases to prepare such a meal. In this case,controller 530 would match its inventory of available nutritional substances with recipes from the well-known Italian chef inrecipe database 555 and find available recipes.Controller 530 could select a recipe that optimized consumer's 540 needs and preferences and prepare a meal usingconditioner system 510. Alternatively,controller 530 could present various options toconsumer 540 usingconsumer interface 560, highlighting features of each available meal from the standpoint of consumer's 540 nutritional needs and/or preferences. - In
FIG. 7 ,nutritional substance database 550,recipe database 555, andconsumer database 580 are part of nutritional substance industry database 558.Controller 530 would communicate with nutritional substance industry database 558 through a communication system such as the internet, and preferably a telecommunications system such as wireless telecommunications. In such an arrangement,controller 530 could even verify that local supermarkets have the items in stock, retrieve and transmit a route to get to the supermarket from the consumer's current location, and further retrieve and transmit a route to follow within the supermarket to efficiently obtain the items. - It is important to note that while
FIGS. 6-7 of various embodiments of the present invention shownutritional substance database 550 as part of theconditioner module 500, they are in no way limited to this interpretation. It is understood that this convention is only one way of illustrating the inventions described herein, and it is further understood that this is in no way limiting to the scope of the present invention. The same is understood forrecipe database 555,consumer database 580, and nutritional substance industry database 558. For example, any ofnutritional substance database 550,recipe database 555,consumer database 580, and nutritional substance industry database 558 can be contained withininformation module 100 or withinconditioner module 500. - Unless the context clearly requires otherwise, throughout the description and the claims, the words “comprise,” “comprising,” and the like are to be construed in an inclusive sense (i.e., to say, in the sense of “including, but not limited to”), as opposed to an exclusive or exhaustive sense. As used herein, the terms “connected,” “coupled,” or any variant thereof means any connection or coupling, either direct or indirect, between two or more elements. Such a coupling or connection between the elements can be physical, logical, or a combination thereof. Additionally, the words “herein,” “above,” “below,” and words of similar import, when used in this application, refer to this application as a whole and not to any particular portions of this application. Where the context permits, words in the above Detailed Description using the singular or plural number may also include the plural or singular number respectively. The word “or,” in reference to a list of two or more items, covers all of the following interpretations of the word: any of the items in the list, all of the items in the list, and any combination of the items in the list.
- The above Detailed Description of examples of the invention is not intended to be exhaustive or to limit the invention to the precise form disclosed above. While specific examples for the invention are described above for illustrative purposes, various equivalent modifications are possible within the scope of the invention, as those skilled in the relevant art will recognize. While processes or blocks are presented in a given order in this application, alternative implementations may perform routines having steps performed in a different order, or employ systems having blocks in a different order. Some processes or blocks may be deleted, moved, added, subdivided, combined, and/or modified to provide alternative or sub-combinations. Also, while processes or blocks are at times shown as being performed in series, these processes or blocks may instead be performed or implemented in parallel, or may be performed at different times. Further any specific numbers noted herein are only examples. It is understood that alternative implementations may employ differing values or ranges.
- The various illustrations and teachings provided herein can also be applied to systems other than the system described above. The elements and acts of the various examples described above can be combined to provide further implementations of the invention.
- Any patents and applications and other references noted above, including any that may be listed in accompanying filing papers, are incorporated herein by reference. Aspects of the invention can be modified, if necessary, to employ the systems, functions, and concepts included in such references to provide further implementations of the invention.
- These and other changes can be made to the invention in light of the above Detailed Description. While the above description describes certain examples of the invention, and describes the best mode contemplated, no matter how detailed the above appears in text, the invention can be practiced in many ways. Details of the system may vary considerably in its specific implementation, while still being encompassed by the invention disclosed herein. As noted above, particular terminology used when describing certain features or aspects of the invention should not be taken to imply that the terminology is being redefined herein to be restricted to any specific characteristics, features, or aspects of the invention with which that terminology is associated. In general, the terms used in the following claims should not be construed to limit the invention to the specific examples disclosed in the specification, unless the above Detailed Description section explicitly defines such terms. Accordingly, the actual scope of the invention encompasses not only the disclosed examples, but also all equivalent ways of practicing or implementing the invention under the claims.
- While certain aspects of the invention are presented below in certain claim forms, the applicant contemplates the various aspects of the invention in any number of claim forms. For example, while only one aspect of the invention is recited as a means-plus-function claim under 35 U.S.C. §112, sixth paragraph, other aspects may likewise be embodied as a means-plus-function claim, or in other forms, such as being embodied in a computer-readable medium. Any claims intended to be treated under 35 U.S.C. §112, ¶ 6 will begin with the words “means for.” Accordingly, the applicant reserves the right to add additional claims after filing the application to pursue such additional claim forms for other aspects of the invention.
Claims (21)
1. A method of transforming a nutritional substance comprising the steps of:
transforming a nutritional substance; and
packaging said nutritional substance; and
providing said packaged nutritional substance with a dynamic information identifier, wherein
said dynamic information identifier is associated with source and ΔN information for said nutritional substance and is further associated with a target nutritional or organoleptic value of the nutritional substance to be attained following subsequent preservation and conditioning; and
supplying said nutritional substance to another entity.
2. A method of transforming a nutritional substance according to claim 1 further comprising the steps of:
using the dynamic information identifier to retrieve or transmit ΔN information for said nutritional substance subsequent to a period of preservation; and
using the dynamic information identifier to retrieve or transmit said target nutritional or organoleptic value.
3. A method of transforming a nutritional substance according to claim 2 further comprising the steps of:
transmitting a conditioning protocol for the nutritional substance responsive to the target nutritional or organoleptic value and the nutritional or organoleptic value subsequent to said period of preservation so as to attain said target nutritional or organoleptic value of the nutritional substance.
4. A method of transforming a nutritional substance according to claim 1 wherein:
the target nutritional or organoleptic value of the nutritional substance is determined by the transformer of the nutritional substance.
5. A system for transforming a nutritional substance comprising:
a nutritional substance; and
a transformation system for transforming said nutritional substance; wherein
said transformation system comprises a packaging system for packaging said nutritional substance following transformation; wherein
said packaging comprises providing a dynamic information identifier with said nutritional substance following transformation, wherein
said dynamic information identifier is associated with source and ΔN information for said nutritional substance and is further associated with a target nutritional or organoleptic value of the nutritional substance, selected by the transformer of the nutritional substance, to be attained following a subsequent period of preservation and conditioning.
6. A system for transforming a nutritional substance according to claim 5 further comprising:
a transmitter for transmitting said dynamic information identifier; and
a retriever to retrieve ΔN information for said nutritional substance related to said subsequent period of preservation using said dynamic information identifier and to retrieve said target nutritional or organoleptic value; and
a transmitter for transmitting a conditioning protocol to condition said nutritional substance responsive to said ΔN information for said nutritional substance related to said subsequent period of preservation and responsive to said target nutritional or organoleptic value.
7. A system for transforming a nutritional substance according to claim 6 wherein:
said transmitter for transmitting a conditioning protocol also transmits said target nutritional or organoleptic value of the nutritional substance after conditioning.
8. A system for transforming a nutritional substance according to claim 6 wherein:
said transmitter for transmitting a conditioning protocol also transmits an attained nutritional or organoleptic value of the nutritional substance following conditioning.
9. A system for transforming a nutritional substance according to claim 5 wherein:
the target nutritional or organoleptic value of the nutritional substance is selected by the transformer of the nutritional substance during transformation of said nutritional substance.
10. A method of transforming a nutritional substance comprising the steps of:
obtaining a nutritional substance or a component thereof; and
determining source and ΔN information for the nutritional substance or the component; and
transforming the nutritional substance or the component so as to optimize a selected nutritional or organoleptic value of the nutritional substance or said component for subsequent preservation; wherein
said transforming further comprises packaging the nutritional substance with a dynamic information identifier that allows transmission or retrieval of proposed conditioning parameters to further optimize the selected nutritional or organoleptic value of the nutritional substance or said component after subsequent preservation and conditioning; wherein
said dynamic information identifier is associated with source and ΔN information for said nutritional substance related to said transforming, said subsequent preservation, and said proposed conditioning parameters.
11. A method of transforming a nutritional substance according to claim 10 further comprising the steps of:
using the dynamic information identifier to transmit or retrieve ΔN information related to said subsequent preservation for said nutritional substance; and
using the dynamic information identifier to transmit or retrieve said proposed conditioning parameters.
12. A method of transforming a nutritional substance according to claim 11 wherein:
said proposed conditioning parameters for the nutritional substance are responsive to the ΔN information related to said subsequent preservation and said selected nutritional or organoleptic value of the nutritional substance.
13. A method of transforming a nutritional substance according to claim 10 wherein:
said proposed conditioning parameters are determined by a transformer of the nutritional substance.
14. A system for transforming a nutritional substance comprising:
a nutritional substance comprising multiple components; and
a transformation system for transformation of said components and for packaging said components following transformation; wherein
said transformation system provides a dynamic information identifier with said nutritional substance following transformation, wherein
said dynamic information identifier is associated with source and ΔN information for said components and is further associated with an optimal nutritional or organoleptic value of at least one component to be attained following subsequent preservation and conditioning.
15. A system for transforming a nutritional substance according to claim 14 wherein:
said dynamic information identifier
allows retrieval of said source and ΔN information and of ΔN information related to said subsequent preservation for said components; and
retrieval of said optimal nutritional or organoleptic value; and
retrieval of a conditioning protocol to condition said nutritional substance responsive to said source and ΔN information, said ΔN information related to said subsequent preservation, and said optimal nutritional or organoleptic value.
16. A system for transforming a nutritional substance according to claim 15 wherein:
said optimal nutritional or organoleptic value of the nutritional substance is transmitted after conditioning.
17. A system for transforming a nutritional substance according to claim 15 wherein:
an attained nutritional or organoleptic value of the nutritional substance resulting from conditioning is associated with the dynamic information identifier.
18. A system for transforming a nutritional substance according to claim 14 wherein:
the optimal nutritional or organoleptic value of the nutritional substance is determined by a transformer of the nutritional substance.
19. A system for transforming a nutritional substance according to claim 14 wherein;
more than one dynamic information identifier is provided with the nutritional substance and further wherein
each of said more than one dynamic information identifiers is associated with individual components of the nutritional substance.
20. A system for transforming a nutritional substance according to claim 15 wherein:
the conditioning protocol requires more than one conditioning device.
21. A system for transforming a nutritional substance according to claim 15 wherein:
the conditioning protocol requires the conditioning of multiple components using more than one set of conditioning parameters.
Priority Applications (23)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US13/684,113 US9902511B2 (en) | 2012-04-16 | 2012-11-21 | Transformation system for optimization of nutritional substances at consumption |
PCT/US2013/029219 WO2013134325A1 (en) | 2012-03-08 | 2013-03-05 | Transformation system for optimization of nutritional substances at consumption |
MX2014010787A MX346969B (en) | 2012-03-08 | 2013-03-05 | Transformation system for optimization of nutritional substances at consumption. |
EP13757669.0A EP2678677A4 (en) | 2012-03-08 | 2013-03-05 | Transformation system for optimization of nutritional substances at consumption |
KR1020147028403A KR20150003733A (en) | 2012-03-08 | 2013-03-05 | Transformation system for optimization of nutritional substances at consumption |
US13/931,744 US8733631B2 (en) | 2012-04-16 | 2013-06-28 | Local storage and conditioning systems for nutritional substances |
US13/931,733 US9171061B2 (en) | 2012-04-16 | 2013-06-28 | Local storage and conditioning systems for nutritional substances |
US14/044,851 US9080997B2 (en) | 2012-04-16 | 2013-10-02 | Local storage and conditioning systems for nutritional substances |
US14/074,664 US8851365B2 (en) | 2012-04-16 | 2013-11-07 | Adaptive storage and conditioning systems for nutritional substances |
US14/080,768 US20140069838A1 (en) | 2012-04-16 | 2013-11-14 | Nutritional Substance Label System For Adaptive Conditioning |
US14/260,115 US9436170B2 (en) | 2012-04-16 | 2014-04-23 | Appliances with weight sensors for nutritional substances |
US14/286,627 US9497990B2 (en) | 2012-04-16 | 2014-05-23 | Local storage and conditioning systems for nutritional substances |
US14/306,111 US9069340B2 (en) | 2012-04-16 | 2014-06-16 | Multi-conditioner control for conditioning nutritional substances |
US14/466,824 US9460633B2 (en) | 2012-04-16 | 2014-08-22 | Conditioner with sensors for nutritional substances |
US14/466,805 US9564064B2 (en) | 2012-04-16 | 2014-08-22 | Conditioner with weight sensors for nutritional substances |
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US11587140B2 (en) | 2018-01-25 | 2023-02-21 | Kraft Foods Group Brands Llc | Methods for improving food-related personalization |
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